Conversion of standardized ReadMe file for
file /./ftp/cats/J/ApJ/791/113 into FORTRAN code for loading all data files into arrays.
Note that special values are assigned to unknown or unspecified
numbers (also called NULL numbers);
when necessary, the coordinate components making up the right ascension
and declination are converted into floating-point numbers
representing these angles in degrees.
program load_ReadMe C============================================================================= C F77-compliant program generated by readme2f_1.81 (2015-09-23), on 2024-Apr-17 C============================================================================= * This code was generated from the ReadMe file documenting a catalogue * according to the "Standard for Documentation of Astronomical Catalogues" * currently in use by the Astronomical Data Centers (CDS, ADC, A&A) * (see full documentation at URL http://vizier.u-strasbg.fr/doc/catstd.htx) * Please report problems or questions to C============================================================================= implicit none * Unspecified or NULL values, generally corresponding to blank columns, * are assigned one of the following special values: * rNULL__ for unknown or NULL floating-point values * iNULL__ for unknown or NULL integer values real*4 rNULL__ integer*4 iNULL__ parameter (rNULL__=--2147483648.) ! NULL real number parameter (iNULL__=(-2147483647-1)) ! NULL int number integer idig ! testing NULL number C============================================================================= Cat. J/ApJ/791/113 MIR-selected quasar parameters (Dai+, 2014) *================================================================================ *Mid-infrared-selected quasars. *I. Virial black hole mass and Eddington ratios. * Dai Y.S., Elvis M., Bergeron J., Fazio G.G., Huang J.-S., Wilkes B.J., * Willmer C.N.A., Omont A., Papovich C. * <Astrophys. J., 791, 113 (2014)> * =2014ApJ...791..113D (SIMBAD/NED BibCode) C============================================================================= C Internal variables integer*4 i__ c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - C Declarations for 'table11a.dat' ! The MIR-selected Quasar Catalog 1. Properties integer*4 nr__ parameter (nr__=391) ! Number of records character*161 ar__ ! Full-size record C J2000 position composed of: RAdeg DEdeg character*20 ID (nr__) ! MMT designation of observation date-fiber * number, or SDSS DR7 designation of spectroscopic * MJD+plate number+ fiber number (ID) real*8 RAdeg (nr__) ! (deg) Right ascension in decimal degrees (J2000) (RA) real*8 DEdeg (nr__) ! (deg) Declination in decimal degrees (J2000) (DEC) real*8 z (nr__) ! Redshift (REDSHIFT) real*8 S24 (nr__) ! (uJy) 24 um flux density from SWIRE photometry (S24) real*4 e_S24 (nr__) ! (uJy) Error on S24 (S24_ERR) real*8 umag (nr__) ! (mag) SDSS u magnitude in AB system (u) real*8 gmag (nr__) ! (mag) SDSS g magnitude in AB system (g) real*8 rmag (nr__) ! (mag) SDSS r magnitude in AB system (r) real*8 imag (nr__) ! (mag) SDSS i magnitude in AB system (i) real*8 zmag (nr__) ! (mag) SDSS z magnitude in AB system (z) real*8 e_umag (nr__) ! (mag) rms uncertainty on umag (u_ERR) real*8 e_gmag (nr__) ! (mag) rms uncertainty on gmag (g_ERR) real*8 e_rmag (nr__) ! (mag) rms uncertainty on rmag (r_ERR) real*8 e_imag (nr__) ! (mag) rms uncertainty on imag (i_ERR) real*8 e_zmag (nr__) ! (mag) rms uncertainty on zmag (z_ERR) c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - C Declarations for 'table11b.dat' ! The MIR-selected Quasar Catalog 1. Properties (sources with S24<400uJy, the MMT05f subsample) integer*4 nr__1 parameter (nr__1=17) ! Number of records character*161 ar__1 ! Full-size record C J2000 position composed of: RAdeg DEdeg character*20 ID_1 (nr__1) ! MMT designation of observation date-fiber * number, or SDSS DR7 designation of spectroscopic * MJD+plate number+ fiber number (ID) real*8 RAdeg_1 (nr__1) ! (deg) Right ascension in decimal degrees (J2000) (RA) real*8 DEdeg_1 (nr__1) ! (deg) Declination in decimal degrees (J2000) (DEC) real*8 z_1 (nr__1) ! Redshift (REDSHIFT) real*8 S24_1 (nr__1) ! (uJy) 24 um flux density from SWIRE photometry (S24) real*4 e_S24_1 (nr__1) ! (uJy) Error on S24 (S24_ERR) real*8 umag_1 (nr__1) ! (mag) SDSS u magnitude in AB system (u) real*8 gmag_1 (nr__1) ! (mag) SDSS g magnitude in AB system (g) real*8 rmag_1 (nr__1) ! (mag) SDSS r magnitude in AB system (r) real*8 imag_1 (nr__1) ! (mag) SDSS i magnitude in AB system (i) real*8 zmag_1 (nr__1) ! (mag) SDSS z magnitude in AB system (z) real*8 e_umag_1 (nr__1) ! (mag) rms uncertainty on umag (u_ERR) real*8 e_gmag_1 (nr__1) ! (mag) rms uncertainty on gmag (g_ERR) real*8 e_rmag_1 (nr__1) ! (mag) rms uncertainty on rmag (r_ERR) real*8 e_imag_1 (nr__1) ! (mag) rms uncertainty on imag (i_ERR) real*8 e_zmag_1 (nr__1) ! (mag) rms uncertainty on zmag (z_ERR) c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - C Declarations for 'table12a.dat' ! The MIR-selected Quasar Catalog 2. Results integer*4 nr__2 parameter (nr__2=391) ! Number of records character*399 ar__2 ! Full-size record character*20 ID_2 (nr__2) ! MMT or SDSS name (G1) integer*4 fEXT (nr__2) ! [3/6] Extended source flag (EXT_FLAG) (1) integer*4 fABS (nr__2) ! [0/1] Absorption flag (ABS_FLAG) (2) integer*4 fFAINT (nr__2) ! [0/1] Faint object flag * (FAING_OBJ_FLAG) (3) real*8 lgMBH (nr__2) ! ([Msun]) ? Fiducial Virial SMBH mass logM* * (LogMBH) real*8 e_lgMBH (nr__2) ! (%) ? Measurement uncertainty on lgMBH * in percentage (LogMBH_ERR) real*8 lgLBol (nr__2) ! ([10-7W]) ? Bolometric luminosity (LogLBOL) real*8 e_lgLBol (nr__2) ! (%) ? Uncertainty in LogLBol * in percentage (LogLBOL_ERR) real*8 lgLbol_LEDD(nr__2) ! ? Eddington ratio (Lbol/Ledd) based on the * fiducial M* (LogLEDD) real*8 lgMBHCIVD6 (nr__2) ! ([Msun]) ? Virial SMBH mass based on dominant * CIV, VP06 (LogMBH_CIV_DOM_VP06) real*8 e_lgMBHCIVD6(nr__2) ! (%) ? Measurement uncertainty in LogMBHCIVD6 * in percentage (LogMBH_CIV_DOM_VP06_ERR) real*8 lgMBHCIVN6 (nr__2) ! ([Msun]) ? Virial SMBH mass based on non-parametric * CIV (LogMBH_CIV_NON_VP06) real*8 e_lgMBHCIVN6(nr__2) ! (%) ? Measurement uncertainty in LogMBHCIVN6 * in percentage (LogMBH_CIV_NON_VP06_ERR) real*8 lgMBHMgIID4(nr__2) ! ([Msun]) ? Virial SMBH mass based on dominant * MgII, MD04 (LogMBH_MGII_DOM_MD04) real*8 e_lgMBHMgIID4(nr__2) ! (%) ? Measurement uncertainty in LogMBHMgIID4 * in percentage (LogMBH_MGII_DOM_MD04_ERR) real*8 lgMBHMgIIN4(nr__2) ! ([Msun]) ? Virial SMBH mass based on non-parametric * MgII (LogMBH_MGII_NON_MD04) real*8 e_lgMBHMgIIN4(nr__2) ! (%) ? Measurement uncertainty in LogMBHMgIIN4 * in percentage (LogMBH_MGII_NON_MD04_ERR) real*8 lgMBHMgIID9(nr__2) ! ([Msun]) ? Virial SMBH mass based on dominant * MgII, VO09 (LogMBH_MGII_DOM_VO09) real*8 e_lgMBHMgIID9(nr__2) ! (%) ? Measurement uncertainty in LogMBHMgIID9 * in percentage (LogMBH_MGII_DOM_VO09_ERR) real*8 lgMBHMgIIN9(nr__2) ! ([Msun]) ? Virial SMBH mass based on non-parametric * MgII (LogMBH_MGII_NON_VO09) real*8 e_lgMBHMgIIN9(nr__2) ! (%) ? Measurement uncertainty in LogMBHMgIIN9 * in percentage (LogMBH_MGII_NON_VO09_ERR) real*8 lgMBHMgIID1(nr__2) ! ([Msun]) ? Virial SMBH mass based on dominant * MgII, S11 (LogMBH_MGII_DOM_S11) real*8 e_lgMBHMgIID1(nr__2) ! (%) ? Measurement uncertainty in LogMBHMgIID1 * in percentage (LogMBH_MGII_DOM_S11_ERR) real*8 lgMBHMgIIN1(nr__2) ! ([Msun]) ? Virial SMBH mass based on non-parametric * MgII (LogMBH_MGII_NON_S11) real*8 e_lgMBHMgIIN1(nr__2) ! (%) ? Measurement uncertainty in LogMBHMgIIN1 * in percentage (LogMBH_MGII_NON_S11_ERR) real*8 lgMBHHbD6 (nr__2) ! ([Msun]) ? Virial SMBH mass based on dominant * H{beta}, VP06 (LogMBH_HBETA_DOM_VP06) real*8 e_lgMBHHbD6(nr__2) ! (%) ? Measurement uncertainty in LogMBHHbD6 * in percentage (LogMBH_HBETA_DOM_VP06_ERR) real*8 lgMBHHbD4 (nr__2) ! ([Msun]) ? Virial SMBH mass based on dominant * H{beta}, MD04 (LogMBH_HBETA_DOM_MD04) real*8 e_lgMBHHbD4(nr__2) ! (%) ? Measurement uncertainty in LogMBHHbD4 * in percentage (LogMBH_HBETA_DOM_MD04_ERR) real*8 lgL1350 (nr__2) ! ([10-7W]) ? Monochromatic line luminosity at * 1350{AA} in percentage (LogCONT_LUM_CIV) real*8 e_lgL1350 (nr__2) ! (%) ? Uncertainty in LogL1350 in percentage * (LogCONT_LUM_ERR_CIV) real*8 lgL3000 (nr__2) ! ([10-7W]) ? Monochromatic line luminosity at * 3000{AA} in percentage (LogCONT_LUM_MGII) real*8 e_lgL3000 (nr__2) ! (%) ? Uncertainty in LogL3000 in percentage * (LogCONT_LUM_ERR_MGII) real*8 lgL5100 (nr__2) ! ([10-7W]) ? Monochromatic line luminosity at * 5100{AA} in percentage * (LogCONT_LUM_HBETA) real*8 e_lgL5100 (nr__2) ! (%) ? Uncertainty in LogL5100 * in percentage (LogCONT_LUM_ERR_HBETA) real*8 lgLbolCIV (nr__2) ! ([10-7W]) ? Bolometric luminosity (LogLBOL_CIV) real*8 e_lgLbolCIV(nr__2) ! (%) ? Uncertainty in LogLbolCIV * in percentage (LogLBOL_CIV_ERR) real*8 lgLbolMgII (nr__2) ! ([10-7W]) ? Bolometric luminosity (LogLBOL_MGII) real*8 e_lgLbolMgII(nr__2) ! (%) ? Uncertainty in LogLbolMgII * in percentage (LogLBOL_MGII_ERR) real*8 lgLbolHb (nr__2) ! ([10-7W]) ? Bolometric luminosity (LogLBOL_HBETA) real*8 e_lgLbolHb (nr__2) ! (%) ? Uncertainty in LogLbolHb * in percentage (LogLBOL_HBETA_ERR) real*8 lgLbol24 (nr__2) ! ([10-7W]) Bolometric luminosity (LogLBOL_24) real*8 e_lgLbol24 (nr__2) ! (%) Uncertainty on LogLbol24 in percentage * (LogLBOL_24_ERR) *Note (1): Extended source flag as follows: * 3 = extended object * 6 = point source *Note (2): Absorption flag as follows: * 1 = sources with absorption * 0 = targets without absorption *Note (3): Faint object flag as follows: * 1 = sources with S24 < 400uJy (the MMT05f subsample) c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - C Declarations for 'table12b.dat' ! The MIR-selected Quasar Catalog 2. Results (sources with S24<400uJy, the MMT05f subsample) integer*4 nr__3 parameter (nr__3=17) ! Number of records character*399 ar__3 ! Full-size record character*20 ID_3 (nr__3) ! MMT or SDSS name (G1) integer*4 fEXT_1 (nr__3) ! [3/6] Extended source flag (EXT_FLAG) (1) integer*4 fABS_1 (nr__3) ! [0/1] Absorption flag (ABS_FLAG) (2) integer*4 fFAINT_1 (nr__3) ! [0/1] Faint object flag * (FAING_OBJ_FLAG) (3) real*8 lgMBH_1 (nr__3) ! ([Msun]) ? Fiducial Virial SMBH mass logM* * (LogMBH) real*8 e_lgMBH_1 (nr__3) ! (%) ? Measurement uncertainty on lgMBH * in percentage (LogMBH_ERR) real*8 lgLBol_1 (nr__3) ! ([10-7W]) ? Bolometric luminosity (LogLBOL) real*8 e_lgLBol_1 (nr__3) ! (%) ? Uncertainty in LogLBol * in percentage (LogLBOL_ERR) real*8 lgLbol_LEDD_1(nr__3) ! ? Eddington ratio (Lbol/Ledd) based on the * fiducial M* (LogLEDD) real*8 lgMBHCIVD6_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on dominant * CIV, VP06 (LogMBH_CIV_DOM_VP06) real*8 e_lgMBHCIVD6_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHCIVD6 * in percentage (LogMBH_CIV_DOM_VP06_ERR) real*8 lgMBHCIVN6_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on non-parametric * CIV (LogMBH_CIV_NON_VP06) real*8 e_lgMBHCIVN6_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHCIVN6 * in percentage (LogMBH_CIV_NON_VP06_ERR) real*8 lgMBHMgIID4_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on dominant * MgII, MD04 (LogMBH_MGII_DOM_MD04) real*8 e_lgMBHMgIID4_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHMgIID4 * in percentage (LogMBH_MGII_DOM_MD04_ERR) real*8 lgMBHMgIIN4_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on non-parametric * MgII (LogMBH_MGII_NON_MD04) real*8 e_lgMBHMgIIN4_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHMgIIN4 * in percentage (LogMBH_MGII_NON_MD04_ERR) real*8 lgMBHMgIID9_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on dominant * MgII, VO09 (LogMBH_MGII_DOM_VO09) real*8 e_lgMBHMgIID9_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHMgIID9 * in percentage (LogMBH_MGII_DOM_VO09_ERR) real*8 lgMBHMgIIN9_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on non-parametric * MgII (LogMBH_MGII_NON_VO09) real*8 e_lgMBHMgIIN9_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHMgIIN9 * in percentage (LogMBH_MGII_NON_VO09_ERR) real*8 lgMBHMgIID1_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on dominant * MgII, S11 (LogMBH_MGII_DOM_S11) real*8 e_lgMBHMgIID1_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHMgIID1 * in percentage (LogMBH_MGII_DOM_S11_ERR) real*8 lgMBHMgIIN1_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on non-parametric * MgII (LogMBH_MGII_NON_S11) real*8 e_lgMBHMgIIN1_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHMgIIN1 * in percentage (LogMBH_MGII_NON_S11_ERR) real*8 lgMBHHbD6_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on dominant * H{beta}, VP06 (LogMBH_HBETA_DOM_VP06) real*8 e_lgMBHHbD6_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHHbD6 * in percentage (LogMBH_HBETA_DOM_VP06_ERR) real*8 lgMBHHbD4_1(nr__3) ! ([Msun]) ? Virial SMBH mass based on dominant * H{beta}, MD04 (LogMBH_HBETA_DOM_MD04) real*8 e_lgMBHHbD4_1(nr__3) ! (%) ? Measurement uncertainty in LogMBHHbD4 * in percentage (LogMBH_HBETA_DOM_MD04_ERR) real*8 lgL1350_1 (nr__3) ! ([10-7W]) ? Monochromatic line luminosity at * 1350{AA} in percentage (LogCONT_LUM_CIV) real*8 e_lgL1350_1(nr__3) ! (%) ? Uncertainty in LogL1350 in percentage * (LogCONT_LUM_ERR_CIV) real*8 lgL3000_1 (nr__3) ! ([10-7W]) ? Monochromatic line luminosity at * 3000{AA} in percentage (LogCONT_LUM_MGII) real*8 e_lgL3000_1(nr__3) ! (%) ? Uncertainty in LogL3000 in percentage * (LogCONT_LUM_ERR_MGII) real*8 lgL5100_1 (nr__3) ! ([10-7W]) ? Monochromatic line luminosity at * 5100{AA} in percentage * (LogCONT_LUM_HBETA) real*8 e_lgL5100_1(nr__3) ! (%) ? Uncertainty in LogL5100 * in percentage (LogCONT_LUM_ERR_HBETA) real*8 lgLbolCIV_1(nr__3) ! ([10-7W]) ? Bolometric luminosity (LogLBOL_CIV) real*8 e_lgLbolCIV_1(nr__3) ! (%) ? Uncertainty in LogLbolCIV * in percentage (LogLBOL_CIV_ERR) real*8 lgLbolMgII_1(nr__3) ! ([10-7W]) ? Bolometric luminosity (LogLBOL_MGII) real*8 e_lgLbolMgII_1(nr__3) ! (%) ? Uncertainty in LogLbolMgII * in percentage (LogLBOL_MGII_ERR) real*8 lgLbolHb_1 (nr__3) ! ([10-7W]) ? Bolometric luminosity (LogLBOL_HBETA) real*8 e_lgLbolHb_1(nr__3) ! (%) ? Uncertainty in LogLbolHb * in percentage (LogLBOL_HBETA_ERR) real*8 lgLbol24_1 (nr__3) ! ([10-7W]) Bolometric luminosity (LogLBOL_24) real*8 e_lgLbol24_1(nr__3) ! (%) Uncertainty on LogLbol24 in percentage * (LogLBOL_24_ERR) *Note (1): Extended source flag as follows: * 3 = extended object * 6 = point source *Note (2): Absorption flag as follows: * 1 = sources with absorption * 0 = targets without absorption *Note (3): Faint object flag as follows: * 1 = sources with S24 < 400uJy (the MMT05f subsample) c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - C Declarations for 'table13a.dat' ! The MIR-selected Quasar Catalog 3. Parameters integer*4 nr__4 parameter (nr__4=391) ! Number of records character*1255 ar__4 ! Full-size record character*20 ID_4 (nr__4) ! MMT or SDSS name (ID) (G1) real*4 CNCIV (nr__4) ! ? Power-law normalization for CIV * continuum fit at 3000{AA} * (CONTI_NORM_CIV) real*4 e_CNCIV (nr__4) ! ? Uncertainty in Power-law normalization * (CONTI_NORM_ERR_CIV) real*4 CSCIV (nr__4) ! ? Power-law slope alpha_CIV for the * continuum fit (CONTI_SLOPE_CIV) real*4 e_CSCIV (nr__4) ! ? Uncertainty in alpha_CIV * (CONTI_SLOPE_ERR_CIV) real*8 CIV1Wave (nr__4) ! (0.1nm) ? Central wavelength of the dominant CIV * component (CIV1_WAVE) real*8 CIV2Wave (nr__4) ! (0.1nm) ? Central wavelength of the second CIV * component (CIV2_WAVE) real*8 CIV3Wave (nr__4) ! (0.1nm) ? Central wavelength of the third CIV * component (CIV3_WAVE) real*8 CIVNWave (nr__4) ! (0.1nm) ? Central wavelength of the * non-parametric CIV component * (CIVNON_WAVE) real*8 CIV1sigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the * dominant CIV component (CIV1_LINESIGMA) real*8 e_CIV1sigma(nr__4) ! (km/s) ? Uncertainty in sigma_l of the dominant * CIV component (CIV1_LINESIGMA_ERR) real*8 CIV1FWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * dominant CIV (CIV1_FWHM) real*8 e_CIV1FWHM (nr__4) ! (km/s) ? Uncertainty in the dominant CIV FWHM * (CIV1_FWHM_ERR) real*8 CIV1Area (nr__4) ! ? Integrated line area of the dominant * CIV (CIV1_LINEAREA) real*8 e_CIV1Area (nr__4) ! ? Uncertainty in the integrated line * area of the dominant CIV * (CIV1_LINEAREA_ERR) real*8 CIV1EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * dominant CIV (CIV1_LINEEW) real*8 e_CIV1EW (nr__4) ! (0.1nm) ? Uncertainty in EW of the dominant CIV * (CIV1_LINEEW_ERR) real*8 CIV2sigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the * secondary CIV component * (CIV2_LINESIGMA) real*8 e_CIV2sigma(nr__4) ! (km/s) []? Uncertainty in sigma_l of the * secondary CIV component * (CIV2_LINESIGMA_ERR) real*8 CIV2FWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * secondary CIV (CIV2_FWHM) real*8 e_CIV2FWHM (nr__4) ! (km/s) []? Uncertainty in the secondary CIV * FWHM (CIV2_FWHM_ERR) real*4 CIV2Area (nr__4) ! ? Integrated line area of the secondary * CIV (CIV2_LINEAREA) real*4 e_CIV2Area (nr__4) ! []? Uncertainty in the integrated line * area of the secondary CIV * (CIV2_LINEAREA_ERR) real*4 CIV2EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * secondary CIV (CIV2_LINEEW) real*4 e_CIV2EW (nr__4) ! (0.1nm) []? Uncertainty in EW of the secondary * CIV (CIV2_LINEEW_ERR) real*8 CIV3sigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the third * CIV component (CIV3_LINESIGMA) real*8 e_CIV3sigma(nr__4) ! (km/s) []? Uncertainty in sigma_l of the third * CIV component (CIV3_LINESIGMA_ERR) real*8 CIV3FWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * third CIV (CIV3_FWHM) real*8 e_CIV3FWHM (nr__4) ! (km/s) []? Uncertainty in the third CIV FWHM * (CIV3_FWHM_ERR) real*8 CIV3Area (nr__4) ! ? Integrated line area of the third CIV * (CIV3_LINEAREA) real*8 e_CIV3Area (nr__4) ! []? Uncertainty in the integrated line * area of the third CIV * (CIV3_LINEAREA_ERR) real*8 CIV3EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * third CIV (CIV3_LINEEW) real*8 e_CIV3EW (nr__4) ! (0.1nm) []? Uncertainty in EW of the third CIV * (CIV3_LINEEW_ERR) real*8 CIVNFWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * non-parametric CIV (CIVNON_FWHM) real*8 e_CIVNFWHM (nr__4) ! (km/s) []? Uncertainty in the non-parametric * CIV FWHM (CIVNON_FWHM_ERR) real*8 CIVNArea (nr__4) ! (km/s) ? Integrated line area of the * non-parametric CIV (CIVNON_LINEAREA) real*8 e_CIVNArea (nr__4) ! (km/s) ? Uncertainty in the integrated line * area of the non-parametric CIV * (CIVNON_LINEAREA_ERR) real*4 CIVNEW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * non-parametric CIV (CIVNON_LINEEW) real*4 e_CIVNEW (nr__4) ! (0.1nm) ? Uncertainty in EW of the * non-parametric CIV (CIVNON_LINEEW_ERR) real*8 rchi2_1CIV (nr__4) ! ? Reduced chi^2^ for the CIV continuum * fit (REDCHI2_1_CIV) real*8 rchi2_2CIV (nr__4) ! ? Reduced chi^2^ for the CIV emission * line fit (REDCHI2_2_CIV) integer*4 stat_1CIV (nr__4) ! ? Status code for the CIV continuum fit * (See IDL program "mpfitfun.pro") * (STATUS_1_CIV) integer*4 stat_2CIV (nr__4) ! ? Status code for the CIV emission line * fit (STATUS_2_CIV) integer*4 NpixCIV (nr__4) ! ? Number of good pixels for the CIV * emission line fitting region * (1500-1600{AA}) (LINE_NPIX_CIV) real*4 MedSNCIV (nr__4) ! ? Median S/N per pixel for the CIV * emission line fitting region * (LINE_MED_SN_CIV) real*4 CNMgII (nr__4) ! ? Power-law normalization for MgII * continuum fit at 3000{AA} * (CONTI_NORM_MGII) real*4 e_CNMgII (nr__4) ! ? Uncertainty in Power-law normalization * (CONTI_NORM_ERR_MGII) real*4 CSMgII (nr__4) ! ? Power-law slope alpha_MgII for the * continuum fit (CONTI_SLOPE_MGII) real*4 e_CSMgII (nr__4) ! ? Uncertainty in alpha_MgII * (CONTI_SLOPE_ERR_MGII) real*4 FenormMgII (nr__4) ! ? Normalization of the FeII template * (FE_NORM_MGII) real*4 e_FenormMgII(nr__4) ! ? Uncertainty in FeII normalization * (FE_NORM_ERR_MGII) real*8 FeFWHMMgII (nr__4) ! ? FWHM of the FeII component for MgII * continuum fit (FE_FWHM_MGII) real*8 e_FeFWHMMgII(nr__4) ! ? Uncertainty in FWHM_Fe * (FE_FWHM_ERR_MGII) real*8 MgII1Wave (nr__4) ! (0.1nm) ? Central wavelength of the dominant * MgII component (MGII1_WAVE) real*8 MgII2Wave (nr__4) ! (0.1nm) ? Central wavelength of the second MgII * component (MGII2_WAVE) real*8 MgII3Wave (nr__4) ! (0.1nm) ? Central wavelength of the third MgII * component (MGII3_WAVE) real*8 MgIInWave (nr__4) ! (0.1nm) ? Central wavelength of the narrow MgII * component (MGIIN_WAVE) real*8 MgIINWave_1(nr__4) ! (0.1nm) ? Central wavelength of the * non-parametric MgII component * (MGIINON_WAVE) real*8 MgII1sigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the * dominant MgII component * (MGII1_LINESIGMA) real*8 e_MgII1sigma(nr__4) ! (km/s) []? Uncertainty in sigma_l of the * dominant MgII component * (MGII1_LINESIGMA_ERR) real*8 MgII1FWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * dominant MgII (MGII1_FWHM) real*8 e_MgII1FWHM(nr__4) ! (km/s) []? Uncertainty in the dominant MgII * FWHM (MGII1_FWHM_ERR) real*8 MgII1Area (nr__4) ! ? Integrated line area of the dominant * MgII (MGII1_LINEAREA) real*8 e_MgII1Area(nr__4) ! []? Uncertainty in the integrated line * area of the dominant MgII * (MGII1_LINEAREA_ERR) real*4 MgII1EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * dominant MgII (MGII1_LINEEW) real*4 e_MgII1EW (nr__4) ! (0.1nm) []? Uncertainty in EW of the dominant * MgII (MGII1_LINEEW_ERR) real*8 MgII2sigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the * secondary MgII component * (MGII2_LINESIGMA) real*8 e_MgII2sigma(nr__4) ! (km/s) []? Uncertainty in sigma_l of the * secondary MgII component * (MGII2_LINESIGMA_ERR) real*8 MgII2FWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * secondary MgII (MGII2_FWHM) real*8 e_MgII2FWHM(nr__4) ! (km/s) []? Uncertainty in the secondary MgII * FWHM (MGII2_FWHM_ERR) real*4 MgII2Area (nr__4) ! ? Integrated line area of the secondary * MgII (MGII2_LINEAREA) real*4 e_MgII2Area(nr__4) ! []? Uncertainty in the integrated line * area of the secondary MgII * (MGII2_LINEAREA_ERR) real*4 MgII2EW (nr__4) ! ? Restframe equivalent width (EW) of the * secondary MgII (MGII2_LINEEW) real*4 e_MgII2EW (nr__4) ! []? Uncertainty in EW of the secondary * MgII (MGII2_LINEEW_ERR) real*8 MgII3sigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the third * MgII component (MGII3_LINESIGMA) real*8 e_MgII3sigma(nr__4) ! (km/s) []? Uncertainty in sigma_l of the third * MgII component (MGII3_LINESIGMA_ERR) real*8 MgII3FWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * third MgII (MGII3_FWHM) real*8 e_MgII3FWHM(nr__4) ! (km/s) []? Uncertainty in the third MgII FWHM * (MGII3_FWHM_ERR) real*8 MgII3Area (nr__4) ! ? Integrated line area of the third * MgII (MGII3_LINEAREA) real*8 e_MgII3Area(nr__4) ! []? Uncertainty in the integrated line * area of the third MgII * (MGII3_LINEAREA_ERR) real*4 MgII3EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * third MgII (MGII3_LINEEW) real*4 e_MgII3EW (nr__4) ! (0.1nm) []? Uncertainty in EW of the third MgII * (MGII3_LINEEW_ERR) real*8 MgIINFWHM (nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * non-parametric MgII (MGIINON_FWHM) real*8 e_MgIINFWHM(nr__4) ! (km/s) []? Uncertainty in the non-parametric * MgII FWHM (MGIINON_FWHM_ERR) real*8 MgIINArea (nr__4) ! ? Integrated line area of the * non-parametric MgII (MGIINON_LINEAREA) real*8 e_MgIINArea(nr__4) ! ? Uncertainty in the integrated line * area of the non-parametric MgII * (MGIINON_LINEAREA_ERR) real*4 MgIINEW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * non-parametric MgII (MGIINON_LINEEW) real*4 e_MgIINEW (nr__4) ! (0.1nm) []? Uncertainty in EW of the * non-parametric MgII * (MGIINON_LINEEW_ERR) real*8 MgIINsigma (nr__4) ! (km/s) ? Line dispersion (sigma_l) of the * narrow MgII component (MGIIN_LINESIGMA) real*8 e_MgIINsigma(nr__4) ! (km/s) []? Uncertainty in sigma_l of the narrow * MgII component (MGIIN_LINESIGMA_ERR) real*8 MgIInFWHM_1(nr__4) ! (km/s) ? Full-width-half-maximum (FWHM) of the * narrow MgII (MGIIN_FWHM) real*8 e_MgIInFWHM_1(nr__4) ! (km/s) ? Uncertainty in the narrow MgII FWHM * (MGIIN_FWHM_ERR) real*8 MgIInArea_1(nr__4) ! ? Integrated line area of the narrow * MgII (MGIIN_LINEAREA) real*8 e_MgIInArea_1(nr__4) ! ? Uncertainty in the integrated line * area of the narrow MgII * (MGIIN_LINEAREA_ERR) real*8 MgIInEW_1 (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * narrow MgII (MGIIN_LINEEW) real*8 e_MgIInEW_1(nr__4) ! (0.1nm) ? Uncertainty in EW of the narrow MgII * (MGIIN_LINEEW_ERR) real*8 rchi2_1MgII(nr__4) ! ? Reduced chi^2^ for the MgII continuum * fit (REDCHI2_1_MGII) real*8 rchi2_2MgII(nr__4) ! ? Reduced chi^2^ for the MgII emission * line fit (REDCHI2_2_MGII) integer*4 stat_1MgII (nr__4) ! ? Status code for the MgII continuum fit * (See IDL program "mpfitfun.pro") * (STATUS_1_MGII) integer*4 stat_2MgII (nr__4) ! ? Status code for the MgII emission line * fit (STATUS_2_MGII) integer*4 NpixMgII (nr__4) ! ? Number of good pixels for the MgII * emission line fitting region * (2700-2900{AA}) (LINE_NPIX_MGII) real*4 MedSNMgII (nr__4) ! ? Median S/N per pixel for the MgII * emission line fitting region * (LINE_MED_SN_MGII) real*4 CNHbeta (nr__4) ! ? Power-law normalization for Hbeta * continuum fit at 3000{AA} * (CONTI_NORM_HBETA) real*4 e_CNHbeta (nr__4) ! ? Uncertainty in Power-law normalization * (CONTI_NORM_ERR_HBETA) real*4 CSHbeta (nr__4) ! ? Power-law slope alpha_Hbeta for the * continuum fit (CONTI_SLOPE_HBETA) real*4 e_CSHbeta (nr__4) ! ? Uncertainty in alpha_Hbeta * (CONTI_SLOPE_ERR_HBETA) real*4 FenormHbeta(nr__4) ! ? Normalization of the FeII+[OIII] * template (FE_NORM_HBETA) real*4 e_FenormHbeta(nr__4) ! ? Uncertainty in FeII+[OIII] * normalization (FE_NORM_ERR_HBETA) real*8 FeFWHMHbeta(nr__4) ! ? FWHM of the FeII+[OIII] component for * Hbeta continuum fit (FE_FWHM_HBETA) real*8 e_FeFWHMHbeta(nr__4) ! ? Uncertainty in FWHM_Fe * (FE_FWHM_ERR_HBETA) real*8 Hbeta1Wave (nr__4) ! ? Central wavelength of the dominant * Hbeta component (HBETA1_WAVE) real*8 Hbeta2Wave (nr__4) ! ? Central wavelength of the second * Hbeta component (HBETA2_WAVE) real*8 Hbeta3Wave (nr__4) ! ? Central wavelength of the third * Hbeta component (HBETA3_WAVE) real*8 HbetaNWave (nr__4) ! ? Central wavelength of the narrow * Hbeta component (HBETAN_WAVE) real*8 OIII4959Wave(nr__4) ! ? Central wavelength of the [OIII] * lambda4959 component (OIII4959_WAVE) real*8 OIII5007Wave(nr__4) ! ? Central wavelength of the [OIII] * lambda5007 component (OIII5007_WAVE) real*8 Hbeta1sigma(nr__4) ! ? Line dispersion (sigma_l) of the * dominant Hbeta component * (HBETA1_LINESIGMA) real*8 e_Hbeta1sigma(nr__4) ! ? Uncertainty in sigma_l of the * dominant Hbeta component * (HBETA1_LINESIGMA_ERR) real*8 Hbeta1FWHM (nr__4) ! ? Full-width-half-maximum (FWHM) of the * dominant Hbeta (HBETA1_FWHM) real*8 e_Hbeta1FWHM(nr__4) ! ? Uncertainty in the dominant Hbeta FWHM * (HBETA1_FWHM_ERR) real*8 Hbeta1Area (nr__4) ! ? Integrated line area of the dominant * Hbeta (HBETA1_LINEAREA) real*4 e_Hbeta1Area(nr__4) ! ? Uncertainty in the integrated line * area of the dominant Hbeta * (HBETA1_LINEAREA_ERR) real*4 Hbeta1EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * dominant Hbeta (HBETA1_LINEEW) real*4 e_Hbeta1EW (nr__4) ! (0.1nm) ? Uncertainty in EW of the dominant * Hbeta (HBETA1_LINEEW_ERR) real*4 HbetaNsigma(nr__4) ! ? Line dispersion (sigma_l) of the * secondary Hbeta component * (HBETAN_LINESIGMA) real*4 e_HbetaNsigma(nr__4) ! ? Uncertainty in sigma_l of the * secondary Hbeta component * (HBETAN_LINESIGMA_ERR) real*8 HbetaNFWHM (nr__4) ! ? Full-width-half-maximum (FWHM) of the * secondary Hbeta (HBETAN_FWHM) real*4 e_HbetaNFWHM(nr__4) ! ? Uncertainty in the secondary Hbeta * FWHM (HBETAN_FWHM_ERR) real*4 HbetaNArea (nr__4) ! ? Integrated line area of the secondary * Hbeta (HBETAN_LINEAREA) real*4 e_HbetaNArea(nr__4) ! ? Uncertainty in the integrated line * area of the secondary Hbeta * (HBETAN_LINEAREA_ERR) real*4 HbetaNEW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * secondary Hbeta (HBETAN_LINEEW) real*4 e_HbetaNEW (nr__4) ! (0.1nm) ? Uncertainty in EW of the secondary * Hbeta (HBETAN_LINEEW_ERR) real*4 OIII4959sigma(nr__4) ! ? Line dispersion (sigma_l) of the third * Hbeta component (OIII4959_LINESIGMA) real*8 e_OIII4959sigma(nr__4) ! ? Uncertainty in sigma_l of the third * Hbeta component * (OIII4959_LINESIGMA_ERR) real*8 OIII4959FWHM(nr__4) ! ? Full-width-half-maximum (FWHM) of the * third Hbeta (OIII4959_FWHM) real*8 e_OIII4959FWHM(nr__4) ! ? Uncertainty in the third Hbeta FWHM * (OIII4959_FWHM_ERR) real*4 OIII4959Area(nr__4) ! ? Integrated line area of the third * Hbeta (OIII4959_LINEAREA) real*4 e_OIII4959Area(nr__4) ! ? Uncertainty in the integrated line * area of the third Hbeta * (OIII4959_LINEAREA_ERR) real*4 OIII4959EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * third Hbeta (OIII4959_LINEEW) real*4 e_OIII4959EW(nr__4) ! (0.1nm) ? Uncertainty in EW of the third Hbeta * (OIII4959_LINEEW_ERR) real*4 OIII5007sigma(nr__4) ! ? Line dispersion (sigma_l) of the * narrow Hbeta component * (OIII5007_LINESIGMA) real*8 e_OIII5007sigma(nr__4) ! ? Uncertainty in sigma_l of the narrow * Hbeta component * (OIII5007_LINESIGMA_ERR) real*8 OIII5007FWHM(nr__4) ! ? Full-width-half-maximum (FWHM) of the * narrow Hbeta (OIII5007_FWHM) real*8 e_OIII5007FWHM(nr__4) ! ? Uncertainty in the narrow Hbeta FWHM * (OIII5007_FWHM_ERR) real*4 OIII5007Area(nr__4) ! ? Integrated line area of the narrow * Hbeta (OIII5007_LINEAREA) real*4 e_OIII5007Area(nr__4) ! ? Uncertainty in the integrated line * area of the narrow Hbeta * (OIII5007_LINEAREA_ERR) real*4 OIII5007EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of * the narrow Hbeta (OIII5007_LINEEW) real*4 e_OIII5007EW(nr__4) ! (0.1nm) ? Uncertainty in EW of the narrow Hbeta * (OIII5007_LINEEW_ERR) real*4 OIII_RATIO (nr__4) ! ? Ratio of ([OIII] lambda5007/[O III] * lambda4959) (OIII_RATIO) real*8 Hbeta2sigma(nr__4) ! ? Line dispersion (sigma_l) of the * [OIII] lambda4959 component * (HBETA2_LINESIGMA) real*8 e_Hbeta2sigma(nr__4) ! ? Uncertainty in sigma_l of the [OIII] * lambda4959 component * (HBETA2_LINESIGMA_ERR) real*8 Hbeta2FWHM (nr__4) ! ? Full-width-half-maximum (FWHM) of the * [OIII] lambda4959 (HBETA2_FWHM) real*8 e_Hbeta2FWHM(nr__4) ! ? Uncertainty in the [OIII] lambda4959 * FWHM (HBETA2_FWHM_ERR) real*4 Hbeta2Area (nr__4) ! ? Integrated line area of the [OIII] * lambda4959 (HBETA2_LINEAREA) real*4 e_Hbeta2Area(nr__4) ! ? Uncertainty in the integrated line * area of the [OIII] lambda4959 * (HBETA2_LINEAREA_ERR) real*4 Hbeta2EW (nr__4) ! (0.1nm) ? Restframe equivalent width (EW) of the * [OIII] lambda4959 HBETA2_LINEEW) real*4 e_Hbeta2EW (nr__4) ! (0.1nm) ? Uncertainty in EW of the [OIII] * lambda4959 (HBETA2_LINEEW_ERR) integer*4 Hbeta3sigma(nr__4) ! [0]? Line dispersion (sigma_l) of the * [OIII] lambda5007 component * (HBETA3_LINESIGMA) real*4 e_Hbeta3sigma(nr__4) ! ? Uncertainty in sigma_l of the [OIII] * lambda5007 component * (HBETA3_LINESIGMA_ERR) integer*4 Hbeta3FWHM (nr__4) ! [0]? Full-width-half-maximum (FWHM) of * the [OIII] lambda5007 (HBETA3_FWHM) real*4 e_Hbeta3FWHM(nr__4) ! ? Uncertainty in the [OIII] lambda5007 * FWHM (HBETA3_FWHM_ERR) integer*4 Hbeta3Area (nr__4) ! [0]? Integrated line area of the [OIII] * lambda5007 (HBETA3_LINEAREA) real*4 e_Hbeta3Area(nr__4) ! ? Uncertainty in the integrated line * area of the [OIII] lambda5007 * (HBETA3_LINEAREA_ERR) integer*4 Hbeta3EW (nr__4) ! (0.1nm) [0]? Restframe equivalent width (EW) of * the [OIII] lambda5007 (HBETA3_LINEEW) real*4 e_Hbeta3EW (nr__4) ! (0.1nm) ? Uncertainty in EW of the [OIII] * lambda5007 (HBETA3_LINEEW_ERR) real*8 rchi2_1Hbeta(nr__4) ! ? Reduced chi^2^ for the Hbeta continuum * fit (REDCHI2_1_HBETA) real*8 rchi2_2Hbeta(nr__4) ! ? Reduced chi^2^ for the Hbeta emission * line fit (REDCHI2_2_HBETA) integer*4 stat_1Hbeta(nr__4) ! ? Status code for the Hbeta continuum * fit (See IDL program "mpfitfun.pro") * (STATUS_1_HBETA) integer*4 stat_2Hbeta(nr__4) ! ? Status code for the Hbeta emission * line fit (STATUS_2_HBETA) integer*4 NpixHbeta (nr__4) ! ? Number of good pixels for the Hbeta * emission line fitting region * (4700-5100{AA}) (LINE_NPIX_HBETA) real*4 MedSNHbeta (nr__4) ! ? Median S/N per pixel for the Hbeta * emission line fitting region * (LINE_MED_SN_HBETA) c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - C Declarations for 'table13b.dat' ! The MIR-selected Quasar Catalog 3. Parameters (sources with S24<400uJy, the MMT05f subsample) integer*4 nr__5 parameter (nr__5=17) ! Number of records character*1255 ar__5 ! Full-size record character*20 ID_5 (nr__5) ! MMT or SDSS name (ID) (G1) real*4 CNCIV_1 (nr__5) ! ? Power-law normalization for CIV * continuum fit at 3000{AA} * (CONTI_NORM_CIV) real*4 e_CNCIV_1 (nr__5) ! ? Uncertainty in Power-law normalization * (CONTI_NORM_ERR_CIV) real*4 CSCIV_1 (nr__5) ! ? Power-law slope alpha_CIV for the * continuum fit (CONTI_SLOPE_CIV) real*4 e_CSCIV_1 (nr__5) ! ? Uncertainty in alpha_CIV * (CONTI_SLOPE_ERR_CIV) real*8 CIV1Wave_1 (nr__5) ! (0.1nm) ? Central wavelength of the dominant CIV * component (CIV1_WAVE) real*8 CIV2Wave_1 (nr__5) ! (0.1nm) ? Central wavelength of the second CIV * component (CIV2_WAVE) real*8 CIV3Wave_1 (nr__5) ! (0.1nm) ? Central wavelength of the third CIV * component (CIV3_WAVE) real*8 CIVNWave_1 (nr__5) ! (0.1nm) ? Central wavelength of the * non-parametric CIV component * (CIVNON_WAVE) real*8 CIV1sigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the * dominant CIV component (CIV1_LINESIGMA) real*8 e_CIV1sigma_1(nr__5) ! (km/s) ? Uncertainty in sigma_l of the dominant * CIV component (CIV1_LINESIGMA_ERR) real*8 CIV1FWHM_1 (nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * dominant CIV (CIV1_FWHM) real*8 e_CIV1FWHM_1(nr__5) ! (km/s) ? Uncertainty in the dominant CIV FWHM * (CIV1_FWHM_ERR) real*8 CIV1Area_1 (nr__5) ! ? Integrated line area of the dominant * CIV (CIV1_LINEAREA) real*8 e_CIV1Area_1(nr__5) ! ? Uncertainty in the integrated line * area of the dominant CIV * (CIV1_LINEAREA_ERR) real*8 CIV1EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * dominant CIV (CIV1_LINEEW) real*8 e_CIV1EW_1 (nr__5) ! (0.1nm) ? Uncertainty in EW of the dominant CIV * (CIV1_LINEEW_ERR) real*8 CIV2sigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the * secondary CIV component * (CIV2_LINESIGMA) real*8 e_CIV2sigma_1(nr__5) ! (km/s) []? Uncertainty in sigma_l of the * secondary CIV component * (CIV2_LINESIGMA_ERR) real*8 CIV2FWHM_1 (nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * secondary CIV (CIV2_FWHM) real*8 e_CIV2FWHM_1(nr__5) ! (km/s) []? Uncertainty in the secondary CIV * FWHM (CIV2_FWHM_ERR) real*4 CIV2Area_1 (nr__5) ! ? Integrated line area of the secondary * CIV (CIV2_LINEAREA) real*4 e_CIV2Area_1(nr__5) ! []? Uncertainty in the integrated line * area of the secondary CIV * (CIV2_LINEAREA_ERR) real*4 CIV2EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * secondary CIV (CIV2_LINEEW) real*4 e_CIV2EW_1 (nr__5) ! (0.1nm) []? Uncertainty in EW of the secondary * CIV (CIV2_LINEEW_ERR) real*8 CIV3sigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the third * CIV component (CIV3_LINESIGMA) real*8 e_CIV3sigma_1(nr__5) ! (km/s) []? Uncertainty in sigma_l of the third * CIV component (CIV3_LINESIGMA_ERR) real*8 CIV3FWHM_1 (nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * third CIV (CIV3_FWHM) real*8 e_CIV3FWHM_1(nr__5) ! (km/s) []? Uncertainty in the third CIV FWHM * (CIV3_FWHM_ERR) real*8 CIV3Area_1 (nr__5) ! ? Integrated line area of the third CIV * (CIV3_LINEAREA) real*8 e_CIV3Area_1(nr__5) ! []? Uncertainty in the integrated line * area of the third CIV * (CIV3_LINEAREA_ERR) real*8 CIV3EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * third CIV (CIV3_LINEEW) real*8 e_CIV3EW_1 (nr__5) ! (0.1nm) []? Uncertainty in EW of the third CIV * (CIV3_LINEEW_ERR) real*8 CIVNFWHM_1 (nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * non-parametric CIV (CIVNON_FWHM) real*8 e_CIVNFWHM_1(nr__5) ! (km/s) []? Uncertainty in the non-parametric * CIV FWHM (CIVNON_FWHM_ERR) real*8 CIVNArea_1 (nr__5) ! (km/s) ? Integrated line area of the * non-parametric CIV (CIVNON_LINEAREA) real*8 e_CIVNArea_1(nr__5) ! (km/s) ? Uncertainty in the integrated line * area of the non-parametric CIV * (CIVNON_LINEAREA_ERR) real*4 CIVNEW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * non-parametric CIV (CIVNON_LINEEW) real*4 e_CIVNEW_1 (nr__5) ! (0.1nm) ? Uncertainty in EW of the * non-parametric CIV (CIVNON_LINEEW_ERR) real*8 rchi2_1CIV_1(nr__5) ! ? Reduced chi^2^ for the CIV continuum * fit (REDCHI2_1_CIV) real*8 rchi2_2CIV_1(nr__5) ! ? Reduced chi^2^ for the CIV emission * line fit (REDCHI2_2_CIV) integer*4 stat_1CIV_1(nr__5) ! ? Status code for the CIV continuum fit * (See IDL program "mpfitfun.pro") * (STATUS_1_CIV) integer*4 stat_2CIV_1(nr__5) ! ? Status code for the CIV emission line * fit (STATUS_2_CIV) integer*4 NpixCIV_1 (nr__5) ! ? Number of good pixels for the CIV * emission line fitting region * (1500-1600{AA}) (LINE_NPIX_CIV) real*4 MedSNCIV_1 (nr__5) ! ? Median S/N per pixel for the CIV * emission line fitting region * (LINE_MED_SN_CIV) real*4 CNMgII_1 (nr__5) ! ? Power-law normalization for MgII * continuum fit at 3000{AA} * (CONTI_NORM_MGII) real*4 e_CNMgII_1 (nr__5) ! ? Uncertainty in Power-law normalization * (CONTI_NORM_ERR_MGII) real*4 CSMgII_1 (nr__5) ! ? Power-law slope alpha_MgII for the * continuum fit (CONTI_SLOPE_MGII) real*4 e_CSMgII_1 (nr__5) ! ? Uncertainty in alpha_MgII * (CONTI_SLOPE_ERR_MGII) real*4 FenormMgII_1(nr__5) ! ? Normalization of the FeII template * (FE_NORM_MGII) real*4 e_FenormMgII_1(nr__5) ! ? Uncertainty in FeII normalization * (FE_NORM_ERR_MGII) real*8 FeFWHMMgII_1(nr__5) ! ? FWHM of the FeII component for MgII * continuum fit (FE_FWHM_MGII) real*8 e_FeFWHMMgII_1(nr__5) ! ? Uncertainty in FWHM_Fe * (FE_FWHM_ERR_MGII) real*8 MgII1Wave_1(nr__5) ! (0.1nm) ? Central wavelength of the dominant * MgII component (MGII1_WAVE) real*8 MgII2Wave_1(nr__5) ! (0.1nm) ? Central wavelength of the second MgII * component (MGII2_WAVE) real*8 MgII3Wave_1(nr__5) ! (0.1nm) ? Central wavelength of the third MgII * component (MGII3_WAVE) real*8 MgIInWave_2(nr__5) ! (0.1nm) ? Central wavelength of the narrow MgII * component (MGIIN_WAVE) real*8 MgIINWave_3(nr__5) ! (0.1nm) ? Central wavelength of the * non-parametric MgII component * (MGIINON_WAVE) real*8 MgII1sigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the * dominant MgII component * (MGII1_LINESIGMA) real*8 e_MgII1sigma_1(nr__5) ! (km/s) []? Uncertainty in sigma_l of the * dominant MgII component * (MGII1_LINESIGMA_ERR) real*8 MgII1FWHM_1(nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * dominant MgII (MGII1_FWHM) real*8 e_MgII1FWHM_1(nr__5) ! (km/s) []? Uncertainty in the dominant MgII * FWHM (MGII1_FWHM_ERR) real*8 MgII1Area_1(nr__5) ! ? Integrated line area of the dominant * MgII (MGII1_LINEAREA) real*8 e_MgII1Area_1(nr__5) ! []? Uncertainty in the integrated line * area of the dominant MgII * (MGII1_LINEAREA_ERR) real*4 MgII1EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * dominant MgII (MGII1_LINEEW) real*4 e_MgII1EW_1(nr__5) ! (0.1nm) []? Uncertainty in EW of the dominant * MgII (MGII1_LINEEW_ERR) real*8 MgII2sigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the * secondary MgII component * (MGII2_LINESIGMA) real*8 e_MgII2sigma_1(nr__5) ! (km/s) []? Uncertainty in sigma_l of the * secondary MgII component * (MGII2_LINESIGMA_ERR) real*8 MgII2FWHM_1(nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * secondary MgII (MGII2_FWHM) real*8 e_MgII2FWHM_1(nr__5) ! (km/s) []? Uncertainty in the secondary MgII * FWHM (MGII2_FWHM_ERR) real*4 MgII2Area_1(nr__5) ! ? Integrated line area of the secondary * MgII (MGII2_LINEAREA) real*4 e_MgII2Area_1(nr__5) ! []? Uncertainty in the integrated line * area of the secondary MgII * (MGII2_LINEAREA_ERR) real*4 MgII2EW_1 (nr__5) ! ? Restframe equivalent width (EW) of the * secondary MgII (MGII2_LINEEW) real*4 e_MgII2EW_1(nr__5) ! []? Uncertainty in EW of the secondary * MgII (MGII2_LINEEW_ERR) real*8 MgII3sigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the third * MgII component (MGII3_LINESIGMA) real*8 e_MgII3sigma_1(nr__5) ! (km/s) []? Uncertainty in sigma_l of the third * MgII component (MGII3_LINESIGMA_ERR) real*8 MgII3FWHM_1(nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * third MgII (MGII3_FWHM) real*8 e_MgII3FWHM_1(nr__5) ! (km/s) []? Uncertainty in the third MgII FWHM * (MGII3_FWHM_ERR) real*8 MgII3Area_1(nr__5) ! ? Integrated line area of the third * MgII (MGII3_LINEAREA) real*8 e_MgII3Area_1(nr__5) ! []? Uncertainty in the integrated line * area of the third MgII * (MGII3_LINEAREA_ERR) real*4 MgII3EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * third MgII (MGII3_LINEEW) real*4 e_MgII3EW_1(nr__5) ! (0.1nm) []? Uncertainty in EW of the third MgII * (MGII3_LINEEW_ERR) real*8 MgIINFWHM_2(nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * non-parametric MgII (MGIINON_FWHM) real*8 e_MgIINFWHM_2(nr__5) ! (km/s) []? Uncertainty in the non-parametric * MgII FWHM (MGIINON_FWHM_ERR) real*8 MgIINArea_2(nr__5) ! ? Integrated line area of the * non-parametric MgII (MGIINON_LINEAREA) real*8 e_MgIINArea_2(nr__5) ! ? Uncertainty in the integrated line * area of the non-parametric MgII * (MGIINON_LINEAREA_ERR) real*4 MgIINEW_2 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * non-parametric MgII (MGIINON_LINEEW) real*4 e_MgIINEW_2(nr__5) ! (0.1nm) []? Uncertainty in EW of the * non-parametric MgII * (MGIINON_LINEEW_ERR) real*8 MgIINsigma_1(nr__5) ! (km/s) ? Line dispersion (sigma_l) of the * narrow MgII component (MGIIN_LINESIGMA) real*8 e_MgIINsigma_1(nr__5) ! (km/s) []? Uncertainty in sigma_l of the narrow * MgII component (MGIIN_LINESIGMA_ERR) real*8 MgIInFWHM_3(nr__5) ! (km/s) ? Full-width-half-maximum (FWHM) of the * narrow MgII (MGIIN_FWHM) real*8 e_MgIInFWHM_3(nr__5) ! (km/s) ? Uncertainty in the narrow MgII FWHM * (MGIIN_FWHM_ERR) real*8 MgIInArea_3(nr__5) ! ? Integrated line area of the narrow * MgII (MGIIN_LINEAREA) real*8 e_MgIInArea_3(nr__5) ! ? Uncertainty in the integrated line * area of the narrow MgII * (MGIIN_LINEAREA_ERR) real*8 MgIInEW_3 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * narrow MgII (MGIIN_LINEEW) real*8 e_MgIInEW_3(nr__5) ! (0.1nm) ? Uncertainty in EW of the narrow MgII * (MGIIN_LINEEW_ERR) real*8 rchi2_1MgII_1(nr__5) ! ? Reduced chi^2^ for the MgII continuum * fit (REDCHI2_1_MGII) real*8 rchi2_2MgII_1(nr__5) ! ? Reduced chi^2^ for the MgII emission * line fit (REDCHI2_2_MGII) integer*4 stat_1MgII_1(nr__5) ! ? Status code for the MgII continuum fit * (See IDL program "mpfitfun.pro") * (STATUS_1_MGII) integer*4 stat_2MgII_1(nr__5) ! ? Status code for the MgII emission line * fit (STATUS_2_MGII) integer*4 NpixMgII_1 (nr__5) ! ? Number of good pixels for the MgII * emission line fitting region * (2700-2900{AA}) (LINE_NPIX_MGII) real*4 MedSNMgII_1(nr__5) ! ? Median S/N per pixel for the MgII * emission line fitting region * (LINE_MED_SN_MGII) real*4 CNHbeta_1 (nr__5) ! ? Power-law normalization for Hbeta * continuum fit at 3000{AA} * (CONTI_NORM_HBETA) real*4 e_CNHbeta_1(nr__5) ! ? Uncertainty in Power-law normalization * (CONTI_NORM_ERR_HBETA) real*4 CSHbeta_1 (nr__5) ! ? Power-law slope alpha_Hbeta for the * continuum fit (CONTI_SLOPE_HBETA) real*4 e_CSHbeta_1(nr__5) ! ? Uncertainty in alpha_Hbeta * (CONTI_SLOPE_ERR_HBETA) real*4 FenormHbeta_1(nr__5) ! ? Normalization of the FeII+[OIII] * template (FE_NORM_HBETA) real*4 e_FenormHbeta_1(nr__5) ! ? Uncertainty in FeII+[OIII] * normalization (FE_NORM_ERR_HBETA) real*8 FeFWHMHbeta_1(nr__5) ! ? FWHM of the FeII+[OIII] component for * Hbeta continuum fit (FE_FWHM_HBETA) real*8 e_FeFWHMHbeta_1(nr__5) ! ? Uncertainty in FWHM_Fe * (FE_FWHM_ERR_HBETA) real*8 Hbeta1Wave_1(nr__5) ! ? Central wavelength of the dominant * Hbeta component (HBETA1_WAVE) real*8 Hbeta2Wave_1(nr__5) ! ? Central wavelength of the second * Hbeta component (HBETA2_WAVE) real*8 Hbeta3Wave_1(nr__5) ! ? Central wavelength of the third * Hbeta component (HBETA3_WAVE) real*8 HbetaNWave_1(nr__5) ! ? Central wavelength of the narrow * Hbeta component (HBETAN_WAVE) real*8 OIII4959Wave_1(nr__5) ! ? Central wavelength of the [OIII] * lambda4959 component (OIII4959_WAVE) real*8 OIII5007Wave_1(nr__5) ! ? Central wavelength of the [OIII] * lambda5007 component (OIII5007_WAVE) real*8 Hbeta1sigma_1(nr__5) ! ? Line dispersion (sigma_l) of the * dominant Hbeta component * (HBETA1_LINESIGMA) real*8 e_Hbeta1sigma_1(nr__5) ! ? Uncertainty in sigma_l of the * dominant Hbeta component * (HBETA1_LINESIGMA_ERR) real*8 Hbeta1FWHM_1(nr__5) ! ? Full-width-half-maximum (FWHM) of the * dominant Hbeta (HBETA1_FWHM) real*8 e_Hbeta1FWHM_1(nr__5) ! ? Uncertainty in the dominant Hbeta FWHM * (HBETA1_FWHM_ERR) real*8 Hbeta1Area_1(nr__5) ! ? Integrated line area of the dominant * Hbeta (HBETA1_LINEAREA) real*4 e_Hbeta1Area_1(nr__5) ! ? Uncertainty in the integrated line * area of the dominant Hbeta * (HBETA1_LINEAREA_ERR) real*4 Hbeta1EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * dominant Hbeta (HBETA1_LINEEW) real*4 e_Hbeta1EW_1(nr__5) ! (0.1nm) ? Uncertainty in EW of the dominant * Hbeta (HBETA1_LINEEW_ERR) real*4 HbetaNsigma_1(nr__5) ! ? Line dispersion (sigma_l) of the * secondary Hbeta component * (HBETAN_LINESIGMA) real*4 e_HbetaNsigma_1(nr__5) ! ? Uncertainty in sigma_l of the * secondary Hbeta component * (HBETAN_LINESIGMA_ERR) real*8 HbetaNFWHM_1(nr__5) ! ? Full-width-half-maximum (FWHM) of the * secondary Hbeta (HBETAN_FWHM) real*4 e_HbetaNFWHM_1(nr__5) ! ? Uncertainty in the secondary Hbeta * FWHM (HBETAN_FWHM_ERR) real*4 HbetaNArea_1(nr__5) ! ? Integrated line area of the secondary * Hbeta (HBETAN_LINEAREA) real*4 e_HbetaNArea_1(nr__5) ! ? Uncertainty in the integrated line * area of the secondary Hbeta * (HBETAN_LINEAREA_ERR) real*4 HbetaNEW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * secondary Hbeta (HBETAN_LINEEW) real*4 e_HbetaNEW_1(nr__5) ! (0.1nm) ? Uncertainty in EW of the secondary * Hbeta (HBETAN_LINEEW_ERR) real*4 OIII4959sigma_1(nr__5) ! ? Line dispersion (sigma_l) of the third * Hbeta component (OIII4959_LINESIGMA) real*8 e_OIII4959sigma_1(nr__5) ! ? Uncertainty in sigma_l of the third * Hbeta component * (OIII4959_LINESIGMA_ERR) real*8 OIII4959FWHM_1(nr__5) ! ? Full-width-half-maximum (FWHM) of the * third Hbeta (OIII4959_FWHM) real*8 e_OIII4959FWHM_1(nr__5) ! ? Uncertainty in the third Hbeta FWHM * (OIII4959_FWHM_ERR) real*4 OIII4959Area_1(nr__5) ! ? Integrated line area of the third * Hbeta (OIII4959_LINEAREA) real*4 e_OIII4959Area_1(nr__5) ! ? Uncertainty in the integrated line * area of the third Hbeta * (OIII4959_LINEAREA_ERR) real*4 OIII4959EW_1(nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * third Hbeta (OIII4959_LINEEW) real*4 e_OIII4959EW_1(nr__5) ! (0.1nm) ? Uncertainty in EW of the third Hbeta * (OIII4959_LINEEW_ERR) real*4 OIII5007sigma_1(nr__5) ! ? Line dispersion (sigma_l) of the * narrow Hbeta component * (OIII5007_LINESIGMA) real*8 e_OIII5007sigma_1(nr__5) ! ? Uncertainty in sigma_l of the narrow * Hbeta component * (OIII5007_LINESIGMA_ERR) real*8 OIII5007FWHM_1(nr__5) ! ? Full-width-half-maximum (FWHM) of the * narrow Hbeta (OIII5007_FWHM) real*8 e_OIII5007FWHM_1(nr__5) ! ? Uncertainty in the narrow Hbeta FWHM * (OIII5007_FWHM_ERR) real*4 OIII5007Area_1(nr__5) ! ? Integrated line area of the narrow * Hbeta (OIII5007_LINEAREA) real*4 e_OIII5007Area_1(nr__5) ! ? Uncertainty in the integrated line * area of the narrow Hbeta * (OIII5007_LINEAREA_ERR) real*4 OIII5007EW_1(nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of * the narrow Hbeta (OIII5007_LINEEW) real*4 e_OIII5007EW_1(nr__5) ! (0.1nm) ? Uncertainty in EW of the narrow Hbeta * (OIII5007_LINEEW_ERR) real*4 OIII_RATIO_1(nr__5) ! ? Ratio of ([OIII] lambda5007/[O III] * lambda4959) (OIII_RATIO) real*8 Hbeta2sigma_1(nr__5) ! ? Line dispersion (sigma_l) of the * [OIII] lambda4959 component * (HBETA2_LINESIGMA) real*8 e_Hbeta2sigma_1(nr__5) ! ? Uncertainty in sigma_l of the [OIII] * lambda4959 component * (HBETA2_LINESIGMA_ERR) real*8 Hbeta2FWHM_1(nr__5) ! ? Full-width-half-maximum (FWHM) of the * [OIII] lambda4959 (HBETA2_FWHM) real*8 e_Hbeta2FWHM_1(nr__5) ! ? Uncertainty in the [OIII] lambda4959 * FWHM (HBETA2_FWHM_ERR) real*4 Hbeta2Area_1(nr__5) ! ? Integrated line area of the [OIII] * lambda4959 (HBETA2_LINEAREA) real*4 e_Hbeta2Area_1(nr__5) ! ? Uncertainty in the integrated line * area of the [OIII] lambda4959 * (HBETA2_LINEAREA_ERR) real*4 Hbeta2EW_1 (nr__5) ! (0.1nm) ? Restframe equivalent width (EW) of the * [OIII] lambda4959 HBETA2_LINEEW) real*4 e_Hbeta2EW_1(nr__5) ! (0.1nm) ? Uncertainty in EW of the [OIII] * lambda4959 (HBETA2_LINEEW_ERR) integer*4 Hbeta3sigma_1(nr__5) ! [0]? Line dispersion (sigma_l) of the * [OIII] lambda5007 component * (HBETA3_LINESIGMA) real*4 e_Hbeta3sigma_1(nr__5) ! ? Uncertainty in sigma_l of the [OIII] * lambda5007 component * (HBETA3_LINESIGMA_ERR) integer*4 Hbeta3FWHM_1(nr__5) ! [0]? Full-width-half-maximum (FWHM) of * the [OIII] lambda5007 (HBETA3_FWHM) real*4 e_Hbeta3FWHM_1(nr__5) ! ? Uncertainty in the [OIII] lambda5007 * FWHM (HBETA3_FWHM_ERR) integer*4 Hbeta3Area_1(nr__5) ! [0]? Integrated line area of the [OIII] * lambda5007 (HBETA3_LINEAREA) real*4 e_Hbeta3Area_1(nr__5) ! ? Uncertainty in the integrated line * area of the [OIII] lambda5007 * (HBETA3_LINEAREA_ERR) integer*4 Hbeta3EW_1 (nr__5) ! (0.1nm) [0]? Restframe equivalent width (EW) of * the [OIII] lambda5007 (HBETA3_LINEEW) real*4 e_Hbeta3EW_1(nr__5) ! (0.1nm) ? Uncertainty in EW of the [OIII] * lambda5007 (HBETA3_LINEEW_ERR) real*8 rchi2_1Hbeta_1(nr__5) ! ? Reduced chi^2^ for the Hbeta continuum * fit (REDCHI2_1_HBETA) real*8 rchi2_2Hbeta_1(nr__5) ! ? Reduced chi^2^ for the Hbeta emission * line fit (REDCHI2_2_HBETA) integer*4 stat_1Hbeta_1(nr__5) ! ? Status code for the Hbeta continuum * fit (See IDL program "mpfitfun.pro") * (STATUS_1_HBETA) integer*4 stat_2Hbeta_1(nr__5) ! ? Status code for the Hbeta emission * line fit (STATUS_2_HBETA) integer*4 NpixHbeta_1(nr__5) ! ? Number of good pixels for the Hbeta * emission line fitting region * (4700-5100{AA}) (LINE_NPIX_HBETA) real*4 MedSNHbeta_1(nr__5) ! ? Median S/N per pixel for the Hbeta * emission line fitting region * (LINE_MED_SN_HBETA) C============================================================================= C Loading file 'table11a.dat' ! The MIR-selected Quasar Catalog 1. Properties C Format for file interpretation 1 format( + A20,1X,F9.5,1X,F9.5,1X,F8.6,1X,F9.3,1X,F6.3,1X,F9.6,1X,F9.6, + 1X,F9.6,1X,F9.6,1X,F9.6,1X,F8.6,1X,F8.6,1X,F8.6,1X,F8.6,1X, + F8.6) C Effective file loading open(unit=1,status='old',file= +'table11a.dat') write(6,*) '....Loading file: table11a.dat' do i__=1,391 read(1,'(A161)')ar__ read(ar__,1) + ID(i__),RAdeg(i__),DEdeg(i__),z(i__),S24(i__),e_S24(i__), + umag(i__),gmag(i__),rmag(i__),imag(i__),zmag(i__),e_umag(i__), + e_gmag(i__),e_rmag(i__),e_imag(i__),e_zmag(i__) c ..............Just test output........... write(6,1) + ID(i__),RAdeg(i__),DEdeg(i__),z(i__),S24(i__),e_S24(i__), + umag(i__),gmag(i__),rmag(i__),imag(i__),zmag(i__),e_umag(i__), + e_gmag(i__),e_rmag(i__),e_imag(i__),e_zmag(i__) c .......End.of.Just test output........... end do close(1) C============================================================================= C Loading file 'table11b.dat' ! The MIR-selected Quasar Catalog 1. Properties * (sources with S24<400uJy, the MMT05f subsample) C Format for file interpretation 2 format( + A20,1X,F9.5,1X,F9.5,1X,F8.6,1X,F9.3,1X,F6.3,1X,F9.6,1X,F9.6, + 1X,F9.6,1X,F9.6,1X,F9.6,1X,F8.6,1X,F8.6,1X,F8.6,1X,F8.6,1X, + F8.6) C Effective file loading open(unit=1,status='old',file= +'table11b.dat') write(6,*) '....Loading file: table11b.dat' do i__=1,17 read(1,'(A161)')ar__1 read(ar__1,2) + ID_1(i__),RAdeg_1(i__),DEdeg_1(i__),z_1(i__),S24_1(i__), + e_S24_1(i__),umag_1(i__),gmag_1(i__),rmag_1(i__),imag_1(i__), + zmag_1(i__),e_umag_1(i__),e_gmag_1(i__),e_rmag_1(i__), + e_imag_1(i__),e_zmag_1(i__) c ..............Just test output........... write(6,2) + ID_1(i__),RAdeg_1(i__),DEdeg_1(i__),z_1(i__),S24_1(i__), + e_S24_1(i__),umag_1(i__),gmag_1(i__),rmag_1(i__),imag_1(i__), + zmag_1(i__),e_umag_1(i__),e_gmag_1(i__),e_rmag_1(i__), + e_imag_1(i__),e_zmag_1(i__) c .......End.of.Just test output........... end do close(1) C============================================================================= C Loading file 'table12a.dat' ! The MIR-selected Quasar Catalog 2. Results C Format for file interpretation 3 format( + A20,1X,I1,1X,I1,1X,I1,1X,F9.6,1X,F9.6,1X,F9.6,1X,F8.6,1X,F9.6, + 1X,F9.6,1X,F9.6,1X,F9.6,1X,F8.6,1X,F8.6,1X,F10.6,1X,F8.6,1X, + F8.6,1X,F8.6,1X,F10.6,1X,F8.6,1X,F8.6,1X,F8.6,1X,F10.6,1X, + F8.6,1X,F8.6,1X,F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X,F9.6,1X,F8.6, + 1X,F9.6,1X,F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X, + F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X,F8.6) C Effective file loading open(unit=1,status='old',file= +'table12a.dat') write(6,*) '....Loading file: table12a.dat' do i__=1,391 read(1,'(A399)')ar__2 read(ar__2,3) + ID_2(i__),fEXT(i__),fABS(i__),fFAINT(i__),lgMBH(i__), + e_lgMBH(i__),lgLBol(i__),e_lgLBol(i__),lgLbol_LEDD(i__), + lgMBHCIVD6(i__),e_lgMBHCIVD6(i__),lgMBHCIVN6(i__), + e_lgMBHCIVN6(i__),lgMBHMgIID4(i__),e_lgMBHMgIID4(i__), + lgMBHMgIIN4(i__),e_lgMBHMgIIN4(i__),lgMBHMgIID9(i__), + e_lgMBHMgIID9(i__),lgMBHMgIIN9(i__),e_lgMBHMgIIN9(i__), + lgMBHMgIID1(i__),e_lgMBHMgIID1(i__),lgMBHMgIIN1(i__), + e_lgMBHMgIIN1(i__),lgMBHHbD6(i__),e_lgMBHHbD6(i__), + lgMBHHbD4(i__),e_lgMBHHbD4(i__),lgL1350(i__),e_lgL1350(i__), + lgL3000(i__),e_lgL3000(i__),lgL5100(i__),e_lgL5100(i__), + lgLbolCIV(i__),e_lgLbolCIV(i__),lgLbolMgII(i__), + e_lgLbolMgII(i__),lgLbolHb(i__),e_lgLbolHb(i__),lgLbol24(i__), + e_lgLbol24(i__) if(ar__2(28:36) .EQ. '') lgMBH(i__) = rNULL__ if(ar__2(38:46) .EQ. '') e_lgMBH(i__) = rNULL__ if(ar__2(48:56) .EQ. '') lgLBol(i__) = rNULL__ if(ar__2(58:65) .EQ. '') e_lgLBol(i__) = rNULL__ if(ar__2(67:75) .EQ. '') lgLbol_LEDD(i__) = rNULL__ if(ar__2(77:85) .EQ. '') lgMBHCIVD6(i__) = rNULL__ if(ar__2(87:95) .EQ. '') e_lgMBHCIVD6(i__) = rNULL__ if(ar__2(97:105) .EQ. '') lgMBHCIVN6(i__) = rNULL__ if(ar__2(107:114) .EQ. '') e_lgMBHCIVN6(i__) = rNULL__ if(ar__2(116:123) .EQ. '') lgMBHMgIID4(i__) = rNULL__ if(ar__2(125:134) .EQ. '') e_lgMBHMgIID4(i__) = rNULL__ if(ar__2(136:143) .EQ. '') lgMBHMgIIN4(i__) = rNULL__ if(ar__2(145:152) .EQ. '') e_lgMBHMgIIN4(i__) = rNULL__ if(ar__2(154:161) .EQ. '') lgMBHMgIID9(i__) = rNULL__ if(ar__2(163:172) .EQ. '') e_lgMBHMgIID9(i__) = rNULL__ if(ar__2(174:181) .EQ. '') lgMBHMgIIN9(i__) = rNULL__ if(ar__2(183:190) .EQ. '') e_lgMBHMgIIN9(i__) = rNULL__ if(ar__2(192:199) .EQ. '') lgMBHMgIID1(i__) = rNULL__ if(ar__2(201:210) .EQ. '') e_lgMBHMgIID1(i__) = rNULL__ if(ar__2(212:219) .EQ. '') lgMBHMgIIN1(i__) = rNULL__ if(ar__2(221:228) .EQ. '') e_lgMBHMgIIN1(i__) = rNULL__ if(ar__2(230:237) .EQ. '') lgMBHHbD6(i__) = rNULL__ if(ar__2(239:247) .EQ. '') e_lgMBHHbD6(i__) = rNULL__ if(ar__2(249:256) .EQ. '') lgMBHHbD4(i__) = rNULL__ if(ar__2(258:266) .EQ. '') e_lgMBHHbD4(i__) = rNULL__ if(ar__2(268:276) .EQ. '') lgL1350(i__) = rNULL__ if(ar__2(278:285) .EQ. '') e_lgL1350(i__) = rNULL__ if(ar__2(287:295) .EQ. '') lgL3000(i__) = rNULL__ if(ar__2(297:304) .EQ. '') e_lgL3000(i__) = rNULL__ if(ar__2(306:314) .EQ. '') lgL5100(i__) = rNULL__ if(ar__2(316:323) .EQ. '') e_lgL5100(i__) = rNULL__ if(ar__2(325:333) .EQ. '') lgLbolCIV(i__) = rNULL__ if(ar__2(335:342) .EQ. '') e_lgLbolCIV(i__) = rNULL__ if(ar__2(344:352) .EQ. '') lgLbolMgII(i__) = rNULL__ if(ar__2(354:361) .EQ. '') e_lgLbolMgII(i__) = rNULL__ if(ar__2(363:371) .EQ. '') lgLbolHb(i__) = rNULL__ if(ar__2(373:380) .EQ. '') e_lgLbolHb(i__) = rNULL__ c ..............Just test output........... write(6,3) + ID_2(i__),fEXT(i__),fABS(i__),fFAINT(i__),lgMBH(i__), + e_lgMBH(i__),lgLBol(i__),e_lgLBol(i__),lgLbol_LEDD(i__), + lgMBHCIVD6(i__),e_lgMBHCIVD6(i__),lgMBHCIVN6(i__), + e_lgMBHCIVN6(i__),lgMBHMgIID4(i__),e_lgMBHMgIID4(i__), + lgMBHMgIIN4(i__),e_lgMBHMgIIN4(i__),lgMBHMgIID9(i__), + e_lgMBHMgIID9(i__),lgMBHMgIIN9(i__),e_lgMBHMgIIN9(i__), + lgMBHMgIID1(i__),e_lgMBHMgIID1(i__),lgMBHMgIIN1(i__), + e_lgMBHMgIIN1(i__),lgMBHHbD6(i__),e_lgMBHHbD6(i__), + lgMBHHbD4(i__),e_lgMBHHbD4(i__),lgL1350(i__),e_lgL1350(i__), + lgL3000(i__),e_lgL3000(i__),lgL5100(i__),e_lgL5100(i__), + lgLbolCIV(i__),e_lgLbolCIV(i__),lgLbolMgII(i__), + e_lgLbolMgII(i__),lgLbolHb(i__),e_lgLbolHb(i__),lgLbol24(i__), + e_lgLbol24(i__) c .......End.of.Just test output........... end do close(1) C============================================================================= C Loading file 'table12b.dat' ! The MIR-selected Quasar Catalog 2. Results * (sources with S24<400uJy, the MMT05f subsample) C Format for file interpretation 4 format( + A20,1X,I1,1X,I1,1X,I1,1X,F9.6,1X,F9.6,1X,F9.6,1X,F8.6,1X,F9.6, + 1X,F9.6,1X,F9.6,1X,F9.6,1X,F8.6,1X,F8.6,1X,F10.6,1X,F8.6,1X, + F8.6,1X,F8.6,1X,F10.6,1X,F8.6,1X,F8.6,1X,F8.6,1X,F10.6,1X, + F8.6,1X,F8.6,1X,F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X,F9.6,1X,F8.6, + 1X,F9.6,1X,F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X, + F8.6,1X,F9.6,1X,F8.6,1X,F9.6,1X,F8.6) C Effective file loading open(unit=1,status='old',file= +'table12b.dat') write(6,*) '....Loading file: table12b.dat' do i__=1,17 read(1,'(A399)')ar__3 read(ar__3,4) + ID_3(i__),fEXT_1(i__),fABS_1(i__),fFAINT_1(i__),lgMBH_1(i__), + e_lgMBH_1(i__),lgLBol_1(i__),e_lgLBol_1(i__), + lgLbol_LEDD_1(i__),lgMBHCIVD6_1(i__),e_lgMBHCIVD6_1(i__), + lgMBHCIVN6_1(i__),e_lgMBHCIVN6_1(i__),lgMBHMgIID4_1(i__), + e_lgMBHMgIID4_1(i__),lgMBHMgIIN4_1(i__),e_lgMBHMgIIN4_1(i__), + lgMBHMgIID9_1(i__),e_lgMBHMgIID9_1(i__),lgMBHMgIIN9_1(i__), + e_lgMBHMgIIN9_1(i__),lgMBHMgIID1_1(i__),e_lgMBHMgIID1_1(i__), + lgMBHMgIIN1_1(i__),e_lgMBHMgIIN1_1(i__),lgMBHHbD6_1(i__), + e_lgMBHHbD6_1(i__),lgMBHHbD4_1(i__),e_lgMBHHbD4_1(i__), + lgL1350_1(i__),e_lgL1350_1(i__),lgL3000_1(i__), + e_lgL3000_1(i__),lgL5100_1(i__),e_lgL5100_1(i__), + lgLbolCIV_1(i__),e_lgLbolCIV_1(i__),lgLbolMgII_1(i__), + e_lgLbolMgII_1(i__),lgLbolHb_1(i__),e_lgLbolHb_1(i__), + lgLbol24_1(i__),e_lgLbol24_1(i__) if(ar__3(28:36) .EQ. '') lgMBH_1(i__) = rNULL__ if(ar__3(38:46) .EQ. '') e_lgMBH_1(i__) = rNULL__ if(ar__3(48:56) .EQ. '') lgLBol_1(i__) = rNULL__ if(ar__3(58:65) .EQ. '') e_lgLBol_1(i__) = rNULL__ if(ar__3(67:75) .EQ. '') lgLbol_LEDD_1(i__) = rNULL__ if(ar__3(77:85) .EQ. '') lgMBHCIVD6_1(i__) = rNULL__ if(ar__3(87:95) .EQ. '') e_lgMBHCIVD6_1(i__) = rNULL__ if(ar__3(97:105) .EQ. '') lgMBHCIVN6_1(i__) = rNULL__ if(ar__3(107:114) .EQ. '') e_lgMBHCIVN6_1(i__) = rNULL__ if(ar__3(116:123) .EQ. '') lgMBHMgIID4_1(i__) = rNULL__ if(ar__3(125:134) .EQ. '') e_lgMBHMgIID4_1(i__) = rNULL__ if(ar__3(136:143) .EQ. '') lgMBHMgIIN4_1(i__) = rNULL__ if(ar__3(145:152) .EQ. '') e_lgMBHMgIIN4_1(i__) = rNULL__ if(ar__3(154:161) .EQ. '') lgMBHMgIID9_1(i__) = rNULL__ if(ar__3(163:172) .EQ. '') e_lgMBHMgIID9_1(i__) = rNULL__ if(ar__3(174:181) .EQ. '') lgMBHMgIIN9_1(i__) = rNULL__ if(ar__3(183:190) .EQ. '') e_lgMBHMgIIN9_1(i__) = rNULL__ if(ar__3(192:199) .EQ. '') lgMBHMgIID1_1(i__) = rNULL__ if(ar__3(201:210) .EQ. '') e_lgMBHMgIID1_1(i__) = rNULL__ if(ar__3(212:219) .EQ. '') lgMBHMgIIN1_1(i__) = rNULL__ if(ar__3(221:228) .EQ. '') e_lgMBHMgIIN1_1(i__) = rNULL__ if(ar__3(230:237) .EQ. '') lgMBHHbD6_1(i__) = rNULL__ if(ar__3(239:247) .EQ. '') e_lgMBHHbD6_1(i__) = rNULL__ if(ar__3(249:256) .EQ. '') lgMBHHbD4_1(i__) = rNULL__ if(ar__3(258:266) .EQ. '') e_lgMBHHbD4_1(i__) = rNULL__ if(ar__3(268:276) .EQ. '') lgL1350_1(i__) = rNULL__ if(ar__3(278:285) .EQ. '') e_lgL1350_1(i__) = rNULL__ if(ar__3(287:295) .EQ. '') lgL3000_1(i__) = rNULL__ if(ar__3(297:304) .EQ. '') e_lgL3000_1(i__) = rNULL__ if(ar__3(306:314) .EQ. '') lgL5100_1(i__) = rNULL__ if(ar__3(316:323) .EQ. '') e_lgL5100_1(i__) = rNULL__ if(ar__3(325:333) .EQ. '') lgLbolCIV_1(i__) = rNULL__ if(ar__3(335:342) .EQ. '') e_lgLbolCIV_1(i__) = rNULL__ if(ar__3(344:352) .EQ. '') lgLbolMgII_1(i__) = rNULL__ if(ar__3(354:361) .EQ. '') e_lgLbolMgII_1(i__) = rNULL__ if(ar__3(363:371) .EQ. '') lgLbolHb_1(i__) = rNULL__ if(ar__3(373:380) .EQ. '') e_lgLbolHb_1(i__) = rNULL__ c ..............Just test output........... write(6,4) + ID_3(i__),fEXT_1(i__),fABS_1(i__),fFAINT_1(i__),lgMBH_1(i__), + e_lgMBH_1(i__),lgLBol_1(i__),e_lgLBol_1(i__), + lgLbol_LEDD_1(i__),lgMBHCIVD6_1(i__),e_lgMBHCIVD6_1(i__), + lgMBHCIVN6_1(i__),e_lgMBHCIVN6_1(i__),lgMBHMgIID4_1(i__), + e_lgMBHMgIID4_1(i__),lgMBHMgIIN4_1(i__),e_lgMBHMgIIN4_1(i__), + lgMBHMgIID9_1(i__),e_lgMBHMgIID9_1(i__),lgMBHMgIIN9_1(i__), + e_lgMBHMgIIN9_1(i__),lgMBHMgIID1_1(i__),e_lgMBHMgIID1_1(i__), + lgMBHMgIIN1_1(i__),e_lgMBHMgIIN1_1(i__),lgMBHHbD6_1(i__), + e_lgMBHHbD6_1(i__),lgMBHHbD4_1(i__),e_lgMBHHbD4_1(i__), + lgL1350_1(i__),e_lgL1350_1(i__),lgL3000_1(i__), + e_lgL3000_1(i__),lgL5100_1(i__),e_lgL5100_1(i__), + lgLbolCIV_1(i__),e_lgLbolCIV_1(i__),lgLbolMgII_1(i__), + e_lgLbolMgII_1(i__),lgLbolHb_1(i__),e_lgLbolHb_1(i__), + lgLbol24_1(i__),e_lgLbol24_1(i__) c .......End.of.Just test output........... end do close(1) C============================================================================= C Loading file 'table13a.dat' ! The MIR-selected Quasar Catalog 3. Parameters C Format for file interpretation 5 format( + A20,1X,F5.2,1X,F4.2,1X,F5.2,1X,F4.2,1X,F7.2,1X,F7.2,1X,F7.2, + 1X,F7.2,1X,F8.2,1X,F7.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F7.2,1X, + F7.2,1X,F7.2,1X,F8.2,1X,F7.2,1X,F8.2,1X,F8.2,1X,F6.2,1X,F6.2, + 1X,F6.2,1X,F6.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F8.2,1X, + F8.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F8.2,1X,F6.2, + 1X,F6.2,1X,F8.6,1X,F9.6,1X,I1,1X,I3,1X,I3,1X,F6.3,1X,F6.3,1X, + F5.3,1X,F5.2,1X,F4.2,1X,F4.2,1X,F4.2,1X,F8.2,1X,F8.2,1X,F7.2, + 1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F8.2,1X, + F8.2,1X,F7.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F8.2, + 1X,F8.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X, + F8.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F8.2,1X,F8.2, + 1X,F7.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F7.2,1X, + F7.2,1X,F8.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F9.6,1X,F8.6,1X,I1,1X, + I3,1X,I3,1X,F5.2,1X,F5.2,1X,F4.2,1X,F5.2,1X,F5.2,1X,F4.2,1X, + F4.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2, + 1X,F7.2,1X,F8.2,1X,F7.2,1X,F8.2,1X,F8.2,1X,F7.2,1X,F5.2,1X, + F6.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F5.2, + 1X,F5.2,1X,F5.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F6.2,1X, + F5.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F6.2, + 1X,F5.2,1X,F6.2,1X,F6.2,1X,F5.2,1X,F7.2,1X,F7.2,1X,F7.2,1X, + F8.2,1X,F5.2,1X,F5.2,1X,F5.2,1X,F5.2,1X,I2,1X,F6.2,1X,I2,1X, + F6.2,1X,I2,1X,F4.2,1X,I2,1X,F4.2,1X,F9.6,1X,F8.6,1X,I1,1X,I1, + 1X,I3,1X,F5.2) C Effective file loading open(unit=1,status='old',file= +'table13a.dat') write(6,*) '....Loading file: table13a.dat' do i__=1,391 read(1,'(A1255)')ar__4 read(ar__4,5) + ID_4(i__),CNCIV(i__),e_CNCIV(i__),CSCIV(i__),e_CSCIV(i__), + CIV1Wave(i__),CIV2Wave(i__),CIV3Wave(i__),CIVNWave(i__), + CIV1sigma(i__),e_CIV1sigma(i__),CIV1FWHM(i__),e_CIV1FWHM(i__), + CIV1Area(i__),e_CIV1Area(i__),CIV1EW(i__),e_CIV1EW(i__), + CIV2sigma(i__),e_CIV2sigma(i__),CIV2FWHM(i__),e_CIV2FWHM(i__), + CIV2Area(i__),e_CIV2Area(i__),CIV2EW(i__),e_CIV2EW(i__), + CIV3sigma(i__),e_CIV3sigma(i__),CIV3FWHM(i__),e_CIV3FWHM(i__), + CIV3Area(i__),e_CIV3Area(i__),CIV3EW(i__),e_CIV3EW(i__), + CIVNFWHM(i__),e_CIVNFWHM(i__),CIVNArea(i__),e_CIVNArea(i__), + CIVNEW(i__),e_CIVNEW(i__),rchi2_1CIV(i__),rchi2_2CIV(i__), + stat_1CIV(i__),stat_2CIV(i__),NpixCIV(i__),MedSNCIV(i__), + CNMgII(i__),e_CNMgII(i__),CSMgII(i__),e_CSMgII(i__), + FenormMgII(i__),e_FenormMgII(i__),FeFWHMMgII(i__), + e_FeFWHMMgII(i__),MgII1Wave(i__),MgII2Wave(i__), + MgII3Wave(i__),MgIInWave(i__),MgIINWave_1(i__), + MgII1sigma(i__),e_MgII1sigma(i__),MgII1FWHM(i__), + e_MgII1FWHM(i__),MgII1Area(i__),e_MgII1Area(i__),MgII1EW(i__), + e_MgII1EW(i__),MgII2sigma(i__),e_MgII2sigma(i__), + MgII2FWHM(i__),e_MgII2FWHM(i__),MgII2Area(i__), + e_MgII2Area(i__),MgII2EW(i__),e_MgII2EW(i__),MgII3sigma(i__), + e_MgII3sigma(i__),MgII3FWHM(i__),e_MgII3FWHM(i__), + MgII3Area(i__),e_MgII3Area(i__),MgII3EW(i__),e_MgII3EW(i__), + MgIINFWHM(i__),e_MgIINFWHM(i__),MgIINArea(i__), + e_MgIINArea(i__),MgIINEW(i__),e_MgIINEW(i__),MgIINsigma(i__), + e_MgIINsigma(i__),MgIInFWHM_1(i__),e_MgIInFWHM_1(i__), + MgIInArea_1(i__),e_MgIInArea_1(i__),MgIInEW_1(i__), + e_MgIInEW_1(i__),rchi2_1MgII(i__),rchi2_2MgII(i__), + stat_1MgII(i__),stat_2MgII(i__),NpixMgII(i__),MedSNMgII(i__), + CNHbeta(i__),e_CNHbeta(i__),CSHbeta(i__),e_CSHbeta(i__), + FenormHbeta(i__),e_FenormHbeta(i__),FeFWHMHbeta(i__), + e_FeFWHMHbeta(i__),Hbeta1Wave(i__),Hbeta2Wave(i__), + Hbeta3Wave(i__),HbetaNWave(i__),OIII4959Wave(i__), + OIII5007Wave(i__),Hbeta1sigma(i__),e_Hbeta1sigma(i__), + Hbeta1FWHM(i__),e_Hbeta1FWHM(i__),Hbeta1Area(i__), + e_Hbeta1Area(i__),Hbeta1EW(i__),e_Hbeta1EW(i__), + HbetaNsigma(i__),e_HbetaNsigma(i__),HbetaNFWHM(i__), + e_HbetaNFWHM(i__),HbetaNArea(i__),e_HbetaNArea(i__), + HbetaNEW(i__),e_HbetaNEW(i__),OIII4959sigma(i__), + e_OIII4959sigma(i__),OIII4959FWHM(i__),e_OIII4959FWHM(i__), + OIII4959Area(i__),e_OIII4959Area(i__),OIII4959EW(i__), + e_OIII4959EW(i__),OIII5007sigma(i__),e_OIII5007sigma(i__), + OIII5007FWHM(i__),e_OIII5007FWHM(i__),OIII5007Area(i__), + e_OIII5007Area(i__),OIII5007EW(i__),e_OIII5007EW(i__), + OIII_RATIO(i__),Hbeta2sigma(i__),e_Hbeta2sigma(i__), + Hbeta2FWHM(i__),e_Hbeta2FWHM(i__),Hbeta2Area(i__), + e_Hbeta2Area(i__),Hbeta2EW(i__),e_Hbeta2EW(i__), + Hbeta3sigma(i__),e_Hbeta3sigma(i__),Hbeta3FWHM(i__), + e_Hbeta3FWHM(i__),Hbeta3Area(i__),e_Hbeta3Area(i__), + Hbeta3EW(i__),e_Hbeta3EW(i__),rchi2_1Hbeta(i__), + rchi2_2Hbeta(i__),stat_1Hbeta(i__),stat_2Hbeta(i__), + NpixHbeta(i__),MedSNHbeta(i__) if(ar__4(22:26) .EQ. '') CNCIV(i__) = rNULL__ if(ar__4(28:31) .EQ. '') e_CNCIV(i__) = rNULL__ if(ar__4(33:37) .EQ. '') CSCIV(i__) = rNULL__ if(ar__4(39:42) .EQ. '') e_CSCIV(i__) = rNULL__ if(ar__4(44:50) .EQ. '') CIV1Wave(i__) = rNULL__ if(ar__4(52:58) .EQ. '') CIV2Wave(i__) = rNULL__ if(ar__4(60:66) .EQ. '') CIV3Wave(i__) = rNULL__ if(ar__4(68:74) .EQ. '') CIVNWave(i__) = rNULL__ if(ar__4(76:83) .EQ. '') CIV1sigma(i__) = rNULL__ if(ar__4(85:91) .EQ. '') e_CIV1sigma(i__) = rNULL__ if(ar__4(93:100) .EQ. '') CIV1FWHM(i__) = rNULL__ if(ar__4(102:109) .EQ. '') e_CIV1FWHM(i__) = rNULL__ if(ar__4(111:118) .EQ. '') CIV1Area(i__) = rNULL__ if(ar__4(120:126) .EQ. '') e_CIV1Area(i__) = rNULL__ if(ar__4(128:134) .EQ. '') CIV1EW(i__) = rNULL__ if(ar__4(136:142) .EQ. '') e_CIV1EW(i__) = rNULL__ if(ar__4(144:151) .EQ. '') CIV2sigma(i__) = rNULL__ if(ar__4(153:159) .EQ. '') e_CIV2sigma(i__) = rNULL__ if(ar__4(161:168) .EQ. '') CIV2FWHM(i__) = rNULL__ if(ar__4(170:177) .EQ. '') e_CIV2FWHM(i__) = rNULL__ if(ar__4(179:184) .EQ. '') CIV2Area(i__) = rNULL__ if(ar__4(186:191) .EQ. '') e_CIV2Area(i__) = rNULL__ if(ar__4(193:198) .EQ. '') CIV2EW(i__) = rNULL__ if(ar__4(200:205) .EQ. '') e_CIV2EW(i__) = rNULL__ if(ar__4(207:214) .EQ. '') CIV3sigma(i__) = rNULL__ if(ar__4(216:223) .EQ. '') e_CIV3sigma(i__) = rNULL__ if(ar__4(225:232) .EQ. '') CIV3FWHM(i__) = rNULL__ if(ar__4(234:241) .EQ. '') e_CIV3FWHM(i__) = rNULL__ if(ar__4(243:250) .EQ. '') CIV3Area(i__) = rNULL__ if(ar__4(252:259) .EQ. '') e_CIV3Area(i__) = rNULL__ if(ar__4(261:268) .EQ. '') CIV3EW(i__) = rNULL__ if(ar__4(270:277) .EQ. '') e_CIV3EW(i__) = rNULL__ if(ar__4(279:286) .EQ. '') CIVNFWHM(i__) = rNULL__ if(ar__4(288:294) .EQ. '') e_CIVNFWHM(i__) = rNULL__ if(ar__4(296:302) .EQ. '') CIVNArea(i__) = rNULL__ if(ar__4(304:311) .EQ. '') e_CIVNArea(i__) = rNULL__ if(ar__4(313:318) .EQ. '') CIVNEW(i__) = rNULL__ if(ar__4(320:325) .EQ. '') e_CIVNEW(i__) = rNULL__ if(ar__4(327:334) .EQ. '') rchi2_1CIV(i__) = rNULL__ if(ar__4(336:344) .EQ. '') rchi2_2CIV(i__) = rNULL__ if(ar__4(346:346) .EQ. '') stat_1CIV(i__) = iNULL__ if(ar__4(348:350) .EQ. '') stat_2CIV(i__) = iNULL__ if(ar__4(352:354) .EQ. '') NpixCIV(i__) = iNULL__ if(ar__4(356:361) .EQ. '') MedSNCIV(i__) = rNULL__ if(ar__4(363:368) .EQ. '') CNMgII(i__) = rNULL__ if(ar__4(370:374) .EQ. '') e_CNMgII(i__) = rNULL__ if(ar__4(376:380) .EQ. '') CSMgII(i__) = rNULL__ if(ar__4(382:385) .EQ. '') e_CSMgII(i__) = rNULL__ if(ar__4(387:390) .EQ. '') FenormMgII(i__) = rNULL__ if(ar__4(392:395) .EQ. '') e_FenormMgII(i__) = rNULL__ if(ar__4(397:404) .EQ. '') FeFWHMMgII(i__) = rNULL__ if(ar__4(406:413) .EQ. '') e_FeFWHMMgII(i__) = rNULL__ if(ar__4(415:421) .EQ. '') MgII1Wave(i__) = rNULL__ if(ar__4(423:429) .EQ. '') MgII2Wave(i__) = rNULL__ if(ar__4(431:437) .EQ. '') MgII3Wave(i__) = rNULL__ if(ar__4(439:445) .EQ. '') MgIInWave(i__) = rNULL__ if(ar__4(447:453) .EQ. '') MgIINWave_1(i__) = rNULL__ if(ar__4(455:461) .EQ. '') MgII1sigma(i__) = rNULL__ if(ar__4(463:469) .EQ. '') e_MgII1sigma(i__) = rNULL__ if(ar__4(471:478) .EQ. '') MgII1FWHM(i__) = rNULL__ if(ar__4(480:487) .EQ. '') e_MgII1FWHM(i__) = rNULL__ if(ar__4(489:495) .EQ. '') MgII1Area(i__) = rNULL__ if(ar__4(497:503) .EQ. '') e_MgII1Area(i__) = rNULL__ if(ar__4(505:510) .EQ. '') MgII1EW(i__) = rNULL__ if(ar__4(512:517) .EQ. '') e_MgII1EW(i__) = rNULL__ if(ar__4(519:525) .EQ. '') MgII2sigma(i__) = rNULL__ if(ar__4(527:533) .EQ. '') e_MgII2sigma(i__) = rNULL__ if(ar__4(535:542) .EQ. '') MgII2FWHM(i__) = rNULL__ if(ar__4(544:551) .EQ. '') e_MgII2FWHM(i__) = rNULL__ if(ar__4(553:558) .EQ. '') MgII2Area(i__) = rNULL__ if(ar__4(560:565) .EQ. '') e_MgII2Area(i__) = rNULL__ if(ar__4(567:572) .EQ. '') MgII2EW(i__) = rNULL__ if(ar__4(574:579) .EQ. '') e_MgII2EW(i__) = rNULL__ if(ar__4(581:587) .EQ. '') MgII3sigma(i__) = rNULL__ if(ar__4(589:595) .EQ. '') e_MgII3sigma(i__) = rNULL__ if(ar__4(597:604) .EQ. '') MgII3FWHM(i__) = rNULL__ if(ar__4(606:613) .EQ. '') e_MgII3FWHM(i__) = rNULL__ if(ar__4(615:621) .EQ. '') MgII3Area(i__) = rNULL__ if(ar__4(623:629) .EQ. '') e_MgII3Area(i__) = rNULL__ if(ar__4(631:636) .EQ. '') MgII3EW(i__) = rNULL__ if(ar__4(638:643) .EQ. '') e_MgII3EW(i__) = rNULL__ if(ar__4(645:652) .EQ. '') MgIINFWHM(i__) = rNULL__ if(ar__4(654:661) .EQ. '') e_MgIINFWHM(i__) = rNULL__ if(ar__4(663:669) .EQ. '') MgIINArea(i__) = rNULL__ if(ar__4(671:677) .EQ. '') e_MgIINArea(i__) = rNULL__ if(ar__4(679:684) .EQ. '') MgIINEW(i__) = rNULL__ if(ar__4(686:691) .EQ. '') e_MgIINEW(i__) = rNULL__ if(ar__4(693:699) .EQ. '') MgIINsigma(i__) = rNULL__ if(ar__4(701:707) .EQ. '') e_MgIINsigma(i__) = rNULL__ if(ar__4(709:715) .EQ. '') MgIInFWHM_1(i__) = rNULL__ if(ar__4(717:723) .EQ. '') e_MgIInFWHM_1(i__) = rNULL__ if(ar__4(725:732) .EQ. '') MgIInArea_1(i__) = rNULL__ if(ar__4(734:741) .EQ. '') e_MgIInArea_1(i__) = rNULL__ if(ar__4(743:749) .EQ. '') MgIInEW_1(i__) = rNULL__ if(ar__4(751:757) .EQ. '') e_MgIInEW_1(i__) = rNULL__ if(ar__4(759:767) .EQ. '') rchi2_1MgII(i__) = rNULL__ if(ar__4(769:776) .EQ. '') rchi2_2MgII(i__) = rNULL__ if(ar__4(778:778) .EQ. '') stat_1MgII(i__) = iNULL__ if(ar__4(780:782) .EQ. '') stat_2MgII(i__) = iNULL__ if(ar__4(784:786) .EQ. '') NpixMgII(i__) = iNULL__ if(ar__4(788:792) .EQ. '') MedSNMgII(i__) = rNULL__ if(ar__4(794:798) .EQ. '') CNHbeta(i__) = rNULL__ if(ar__4(800:803) .EQ. '') e_CNHbeta(i__) = rNULL__ if(ar__4(805:809) .EQ. '') CSHbeta(i__) = rNULL__ if(ar__4(811:815) .EQ. '') e_CSHbeta(i__) = rNULL__ if(ar__4(817:820) .EQ. '') FenormHbeta(i__) = rNULL__ if(ar__4(822:825) .EQ. '') e_FenormHbeta(i__) = rNULL__ if(ar__4(827:834) .EQ. '') FeFWHMHbeta(i__) = rNULL__ if(ar__4(836:842) .EQ. '') e_FeFWHMHbeta(i__) = rNULL__ if(ar__4(844:850) .EQ. '') Hbeta1Wave(i__) = rNULL__ if(ar__4(852:858) .EQ. '') Hbeta2Wave(i__) = rNULL__ if(ar__4(860:866) .EQ. '') Hbeta3Wave(i__) = rNULL__ if(ar__4(868:874) .EQ. '') HbetaNWave(i__) = rNULL__ if(ar__4(876:882) .EQ. '') OIII4959Wave(i__) = rNULL__ if(ar__4(884:890) .EQ. '') OIII5007Wave(i__) = rNULL__ if(ar__4(892:899) .EQ. '') Hbeta1sigma(i__) = rNULL__ if(ar__4(901:907) .EQ. '') e_Hbeta1sigma(i__) = rNULL__ if(ar__4(909:916) .EQ. '') Hbeta1FWHM(i__) = rNULL__ if(ar__4(918:925) .EQ. '') e_Hbeta1FWHM(i__) = rNULL__ if(ar__4(927:933) .EQ. '') Hbeta1Area(i__) = rNULL__ if(ar__4(935:939) .EQ. '') e_Hbeta1Area(i__) = rNULL__ if(ar__4(941:946) .EQ. '') Hbeta1EW(i__) = rNULL__ if(ar__4(948:953) .EQ. '') e_Hbeta1EW(i__) = rNULL__ if(ar__4(955:960) .EQ. '') HbetaNsigma(i__) = rNULL__ if(ar__4(962:967) .EQ. '') e_HbetaNsigma(i__) = rNULL__ if(ar__4(969:975) .EQ. '') HbetaNFWHM(i__) = rNULL__ if(ar__4(977:982) .EQ. '') e_HbetaNFWHM(i__) = rNULL__ if(ar__4(984:989) .EQ. '') HbetaNArea(i__) = rNULL__ if(ar__4(991:995) .EQ. '') e_HbetaNArea(i__) = rNULL__ if(ar__4(997:1001) .EQ. '') HbetaNEW(i__) = rNULL__ if(ar__4(1003:1007) .EQ. '') e_HbetaNEW(i__) = rNULL__ if(ar__4(1009:1014) .EQ. '') OIII4959sigma(i__) = rNULL__ if(ar__4(1016:1022) .EQ. '') e_OIII4959sigma(i__) = rNULL__ if(ar__4(1024:1030) .EQ. '') OIII4959FWHM(i__) = rNULL__ if(ar__4(1032:1038) .EQ. '') e_OIII4959FWHM(i__) = rNULL__ if(ar__4(1040:1045) .EQ. '') OIII4959Area(i__) = rNULL__ if(ar__4(1047:1051) .EQ. '') e_OIII4959Area(i__) = rNULL__ if(ar__4(1053:1058) .EQ. '') OIII4959EW(i__) = rNULL__ if(ar__4(1060:1065) .EQ. '') e_OIII4959EW(i__) = rNULL__ if(ar__4(1067:1072) .EQ. '') OIII5007sigma(i__) = rNULL__ if(ar__4(1074:1080) .EQ. '') e_OIII5007sigma(i__) = rNULL__ if(ar__4(1082:1088) .EQ. '') OIII5007FWHM(i__) = rNULL__ if(ar__4(1090:1096) .EQ. '') e_OIII5007FWHM(i__) = rNULL__ if(ar__4(1098:1103) .EQ. '') OIII5007Area(i__) = rNULL__ if(ar__4(1105:1109) .EQ. '') e_OIII5007Area(i__) = rNULL__ if(ar__4(1111:1116) .EQ. '') OIII5007EW(i__) = rNULL__ if(ar__4(1118:1123) .EQ. '') e_OIII5007EW(i__) = rNULL__ if(ar__4(1125:1129) .EQ. '') OIII_RATIO(i__) = rNULL__ if(ar__4(1131:1137) .EQ. '') Hbeta2sigma(i__) = rNULL__ if(ar__4(1139:1145) .EQ. '') e_Hbeta2sigma(i__) = rNULL__ if(ar__4(1147:1153) .EQ. '') Hbeta2FWHM(i__) = rNULL__ if(ar__4(1155:1162) .EQ. '') e_Hbeta2FWHM(i__) = rNULL__ if(ar__4(1164:1168) .EQ. '') Hbeta2Area(i__) = rNULL__ if(ar__4(1170:1174) .EQ. '') e_Hbeta2Area(i__) = rNULL__ if(ar__4(1176:1180) .EQ. '') Hbeta2EW(i__) = rNULL__ if(ar__4(1182:1186) .EQ. '') e_Hbeta2EW(i__) = rNULL__ if(ar__4(1188:1189) .EQ. '') Hbeta3sigma(i__) = iNULL__ if(ar__4(1191:1196) .EQ. '') e_Hbeta3sigma(i__) = rNULL__ if(ar__4(1198:1199) .EQ. '') Hbeta3FWHM(i__) = iNULL__ if(ar__4(1201:1206) .EQ. '') e_Hbeta3FWHM(i__) = rNULL__ if(ar__4(1208:1209) .EQ. '') Hbeta3Area(i__) = iNULL__ if(ar__4(1211:1214) .EQ. '') e_Hbeta3Area(i__) = rNULL__ if(ar__4(1216:1217) .EQ. '') Hbeta3EW(i__) = iNULL__ if(ar__4(1219:1222) .EQ. '') e_Hbeta3EW(i__) = rNULL__ if(ar__4(1224:1232) .EQ. '') rchi2_1Hbeta(i__) = rNULL__ if(ar__4(1234:1241) .EQ. '') rchi2_2Hbeta(i__) = rNULL__ if(ar__4(1243:1243) .EQ. '') stat_1Hbeta(i__) = iNULL__ if(ar__4(1245:1245) .EQ. '') stat_2Hbeta(i__) = iNULL__ if(ar__4(1247:1249) .EQ. '') NpixHbeta(i__) = iNULL__ if(ar__4(1251:1255) .EQ. '') MedSNHbeta(i__) = rNULL__ c ..............Just test output........... write(6,5) + ID_4(i__),CNCIV(i__),e_CNCIV(i__),CSCIV(i__),e_CSCIV(i__), + CIV1Wave(i__),CIV2Wave(i__),CIV3Wave(i__),CIVNWave(i__), + CIV1sigma(i__),e_CIV1sigma(i__),CIV1FWHM(i__),e_CIV1FWHM(i__), + CIV1Area(i__),e_CIV1Area(i__),CIV1EW(i__),e_CIV1EW(i__), + CIV2sigma(i__),e_CIV2sigma(i__),CIV2FWHM(i__),e_CIV2FWHM(i__), + CIV2Area(i__),e_CIV2Area(i__),CIV2EW(i__),e_CIV2EW(i__), + CIV3sigma(i__),e_CIV3sigma(i__),CIV3FWHM(i__),e_CIV3FWHM(i__), + CIV3Area(i__),e_CIV3Area(i__),CIV3EW(i__),e_CIV3EW(i__), + CIVNFWHM(i__),e_CIVNFWHM(i__),CIVNArea(i__),e_CIVNArea(i__), + CIVNEW(i__),e_CIVNEW(i__),rchi2_1CIV(i__),rchi2_2CIV(i__), + stat_1CIV(i__),stat_2CIV(i__),NpixCIV(i__),MedSNCIV(i__), + CNMgII(i__),e_CNMgII(i__),CSMgII(i__),e_CSMgII(i__), + FenormMgII(i__),e_FenormMgII(i__),FeFWHMMgII(i__), + e_FeFWHMMgII(i__),MgII1Wave(i__),MgII2Wave(i__), + MgII3Wave(i__),MgIInWave(i__),MgIINWave_1(i__), + MgII1sigma(i__),e_MgII1sigma(i__),MgII1FWHM(i__), + e_MgII1FWHM(i__),MgII1Area(i__),e_MgII1Area(i__),MgII1EW(i__), + e_MgII1EW(i__),MgII2sigma(i__),e_MgII2sigma(i__), + MgII2FWHM(i__),e_MgII2FWHM(i__),MgII2Area(i__), + e_MgII2Area(i__),MgII2EW(i__),e_MgII2EW(i__),MgII3sigma(i__), + e_MgII3sigma(i__),MgII3FWHM(i__),e_MgII3FWHM(i__), + MgII3Area(i__),e_MgII3Area(i__),MgII3EW(i__),e_MgII3EW(i__), + MgIINFWHM(i__),e_MgIINFWHM(i__),MgIINArea(i__), + e_MgIINArea(i__),MgIINEW(i__),e_MgIINEW(i__),MgIINsigma(i__), + e_MgIINsigma(i__),MgIInFWHM_1(i__),e_MgIInFWHM_1(i__), + MgIInArea_1(i__),e_MgIInArea_1(i__),MgIInEW_1(i__), + e_MgIInEW_1(i__),rchi2_1MgII(i__),rchi2_2MgII(i__), + stat_1MgII(i__),stat_2MgII(i__),NpixMgII(i__),MedSNMgII(i__), + CNHbeta(i__),e_CNHbeta(i__),CSHbeta(i__),e_CSHbeta(i__), + FenormHbeta(i__),e_FenormHbeta(i__),FeFWHMHbeta(i__), + e_FeFWHMHbeta(i__),Hbeta1Wave(i__),Hbeta2Wave(i__), + Hbeta3Wave(i__),HbetaNWave(i__),OIII4959Wave(i__), + OIII5007Wave(i__),Hbeta1sigma(i__),e_Hbeta1sigma(i__), + Hbeta1FWHM(i__),e_Hbeta1FWHM(i__),Hbeta1Area(i__), + e_Hbeta1Area(i__),Hbeta1EW(i__),e_Hbeta1EW(i__), + HbetaNsigma(i__),e_HbetaNsigma(i__),HbetaNFWHM(i__), + e_HbetaNFWHM(i__),HbetaNArea(i__),e_HbetaNArea(i__), + HbetaNEW(i__),e_HbetaNEW(i__),OIII4959sigma(i__), + e_OIII4959sigma(i__),OIII4959FWHM(i__),e_OIII4959FWHM(i__), + OIII4959Area(i__),e_OIII4959Area(i__),OIII4959EW(i__), + e_OIII4959EW(i__),OIII5007sigma(i__),e_OIII5007sigma(i__), + OIII5007FWHM(i__),e_OIII5007FWHM(i__),OIII5007Area(i__), + e_OIII5007Area(i__),OIII5007EW(i__),e_OIII5007EW(i__), + OIII_RATIO(i__),Hbeta2sigma(i__),e_Hbeta2sigma(i__), + Hbeta2FWHM(i__),e_Hbeta2FWHM(i__),Hbeta2Area(i__), + e_Hbeta2Area(i__),Hbeta2EW(i__),e_Hbeta2EW(i__), + Hbeta3sigma(i__),e_Hbeta3sigma(i__),Hbeta3FWHM(i__), + e_Hbeta3FWHM(i__),Hbeta3Area(i__),e_Hbeta3Area(i__), + Hbeta3EW(i__),e_Hbeta3EW(i__),rchi2_1Hbeta(i__), + rchi2_2Hbeta(i__),stat_1Hbeta(i__),stat_2Hbeta(i__), + NpixHbeta(i__),MedSNHbeta(i__) c .......End.of.Just test output........... end do close(1) C============================================================================= C Loading file 'table13b.dat' ! The MIR-selected Quasar Catalog 3. Parameters * (sources with S24<400uJy, the MMT05f subsample) C Format for file interpretation 6 format( + A20,1X,F5.2,1X,F4.2,1X,F5.2,1X,F4.2,1X,F7.2,1X,F7.2,1X,F7.2, + 1X,F7.2,1X,F8.2,1X,F7.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F7.2,1X, + F7.2,1X,F7.2,1X,F8.2,1X,F7.2,1X,F8.2,1X,F8.2,1X,F6.2,1X,F6.2, + 1X,F6.2,1X,F6.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F8.2,1X, + F8.2,1X,F8.2,1X,F8.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F8.2,1X,F6.2, + 1X,F6.2,1X,F8.6,1X,F9.6,1X,I1,1X,I3,1X,I3,1X,F6.3,1X,F6.3,1X, + F5.3,1X,F5.2,1X,F4.2,1X,F4.2,1X,F4.2,1X,F8.2,1X,F8.2,1X,F7.2, + 1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F8.2,1X, + F8.2,1X,F7.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F8.2, + 1X,F8.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X, + F8.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F8.2,1X,F8.2, + 1X,F7.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F7.2,1X, + F7.2,1X,F8.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F9.6,1X,F8.6,1X,I1,1X, + I3,1X,I3,1X,F5.2,1X,F5.2,1X,F4.2,1X,F5.2,1X,F5.2,1X,F4.2,1X, + F4.2,1X,F8.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F7.2, + 1X,F7.2,1X,F8.2,1X,F7.2,1X,F8.2,1X,F8.2,1X,F7.2,1X,F5.2,1X, + F6.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F6.2,1X,F6.2,1X,F5.2, + 1X,F5.2,1X,F5.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F6.2,1X, + F5.2,1X,F6.2,1X,F6.2,1X,F6.2,1X,F7.2,1X,F7.2,1X,F7.2,1X,F6.2, + 1X,F5.2,1X,F6.2,1X,F6.2,1X,F5.2,1X,F7.2,1X,F7.2,1X,F7.2,1X, + F8.2,1X,F5.2,1X,F5.2,1X,F5.2,1X,F5.2,1X,I2,1X,F6.2,1X,I2,1X, + F6.2,1X,I2,1X,F4.2,1X,I2,1X,F4.2,1X,F9.6,1X,F8.6,1X,I1,1X,I1, + 1X,I3,1X,F5.2) C Effective file loading open(unit=1,status='old',file= +'table13b.dat') write(6,*) '....Loading file: table13b.dat' do i__=1,17 read(1,'(A1255)')ar__5 read(ar__5,6) + ID_5(i__),CNCIV_1(i__),e_CNCIV_1(i__),CSCIV_1(i__), + e_CSCIV_1(i__),CIV1Wave_1(i__),CIV2Wave_1(i__), + CIV3Wave_1(i__),CIVNWave_1(i__),CIV1sigma_1(i__), + e_CIV1sigma_1(i__),CIV1FWHM_1(i__),e_CIV1FWHM_1(i__), + CIV1Area_1(i__),e_CIV1Area_1(i__),CIV1EW_1(i__), + e_CIV1EW_1(i__),CIV2sigma_1(i__),e_CIV2sigma_1(i__), + CIV2FWHM_1(i__),e_CIV2FWHM_1(i__),CIV2Area_1(i__), + e_CIV2Area_1(i__),CIV2EW_1(i__),e_CIV2EW_1(i__), + CIV3sigma_1(i__),e_CIV3sigma_1(i__),CIV3FWHM_1(i__), + e_CIV3FWHM_1(i__),CIV3Area_1(i__),e_CIV3Area_1(i__), + CIV3EW_1(i__),e_CIV3EW_1(i__),CIVNFWHM_1(i__), + e_CIVNFWHM_1(i__),CIVNArea_1(i__),e_CIVNArea_1(i__), + CIVNEW_1(i__),e_CIVNEW_1(i__),rchi2_1CIV_1(i__), + rchi2_2CIV_1(i__),stat_1CIV_1(i__),stat_2CIV_1(i__), + NpixCIV_1(i__),MedSNCIV_1(i__),CNMgII_1(i__),e_CNMgII_1(i__), + CSMgII_1(i__),e_CSMgII_1(i__),FenormMgII_1(i__), + e_FenormMgII_1(i__),FeFWHMMgII_1(i__),e_FeFWHMMgII_1(i__), + MgII1Wave_1(i__),MgII2Wave_1(i__),MgII3Wave_1(i__), + MgIInWave_2(i__),MgIINWave_3(i__),MgII1sigma_1(i__), + e_MgII1sigma_1(i__),MgII1FWHM_1(i__),e_MgII1FWHM_1(i__), + MgII1Area_1(i__),e_MgII1Area_1(i__),MgII1EW_1(i__), + e_MgII1EW_1(i__),MgII2sigma_1(i__),e_MgII2sigma_1(i__), + MgII2FWHM_1(i__),e_MgII2FWHM_1(i__),MgII2Area_1(i__), + e_MgII2Area_1(i__),MgII2EW_1(i__),e_MgII2EW_1(i__), + MgII3sigma_1(i__),e_MgII3sigma_1(i__),MgII3FWHM_1(i__), + e_MgII3FWHM_1(i__),MgII3Area_1(i__),e_MgII3Area_1(i__), + MgII3EW_1(i__),e_MgII3EW_1(i__),MgIINFWHM_2(i__), + e_MgIINFWHM_2(i__),MgIINArea_2(i__),e_MgIINArea_2(i__), + MgIINEW_2(i__),e_MgIINEW_2(i__),MgIINsigma_1(i__), + e_MgIINsigma_1(i__),MgIInFWHM_3(i__),e_MgIInFWHM_3(i__), + MgIInArea_3(i__),e_MgIInArea_3(i__),MgIInEW_3(i__), + e_MgIInEW_3(i__),rchi2_1MgII_1(i__),rchi2_2MgII_1(i__), + stat_1MgII_1(i__),stat_2MgII_1(i__),NpixMgII_1(i__), + MedSNMgII_1(i__),CNHbeta_1(i__),e_CNHbeta_1(i__), + CSHbeta_1(i__),e_CSHbeta_1(i__),FenormHbeta_1(i__), + e_FenormHbeta_1(i__),FeFWHMHbeta_1(i__),e_FeFWHMHbeta_1(i__), + Hbeta1Wave_1(i__),Hbeta2Wave_1(i__),Hbeta3Wave_1(i__), + HbetaNWave_1(i__),OIII4959Wave_1(i__),OIII5007Wave_1(i__), + Hbeta1sigma_1(i__),e_Hbeta1sigma_1(i__),Hbeta1FWHM_1(i__), + e_Hbeta1FWHM_1(i__),Hbeta1Area_1(i__),e_Hbeta1Area_1(i__), + Hbeta1EW_1(i__),e_Hbeta1EW_1(i__),HbetaNsigma_1(i__), + e_HbetaNsigma_1(i__),HbetaNFWHM_1(i__),e_HbetaNFWHM_1(i__), + HbetaNArea_1(i__),e_HbetaNArea_1(i__),HbetaNEW_1(i__), + e_HbetaNEW_1(i__),OIII4959sigma_1(i__),e_OIII4959sigma_1(i__), + OIII4959FWHM_1(i__),e_OIII4959FWHM_1(i__),OIII4959Area_1(i__), + e_OIII4959Area_1(i__),OIII4959EW_1(i__),e_OIII4959EW_1(i__), + OIII5007sigma_1(i__),e_OIII5007sigma_1(i__), + OIII5007FWHM_1(i__),e_OIII5007FWHM_1(i__),OIII5007Area_1(i__), + e_OIII5007Area_1(i__),OIII5007EW_1(i__),e_OIII5007EW_1(i__), + OIII_RATIO_1(i__),Hbeta2sigma_1(i__),e_Hbeta2sigma_1(i__), + Hbeta2FWHM_1(i__),e_Hbeta2FWHM_1(i__),Hbeta2Area_1(i__), + e_Hbeta2Area_1(i__),Hbeta2EW_1(i__),e_Hbeta2EW_1(i__), + Hbeta3sigma_1(i__),e_Hbeta3sigma_1(i__),Hbeta3FWHM_1(i__), + e_Hbeta3FWHM_1(i__),Hbeta3Area_1(i__),e_Hbeta3Area_1(i__), + Hbeta3EW_1(i__),e_Hbeta3EW_1(i__),rchi2_1Hbeta_1(i__), + rchi2_2Hbeta_1(i__),stat_1Hbeta_1(i__),stat_2Hbeta_1(i__), + NpixHbeta_1(i__),MedSNHbeta_1(i__) if(ar__5(22:26) .EQ. '') CNCIV_1(i__) = rNULL__ if(ar__5(28:31) .EQ. '') e_CNCIV_1(i__) = rNULL__ if(ar__5(33:37) .EQ. '') CSCIV_1(i__) = rNULL__ if(ar__5(39:42) .EQ. '') e_CSCIV_1(i__) = rNULL__ if(ar__5(44:50) .EQ. '') CIV1Wave_1(i__) = rNULL__ if(ar__5(52:58) .EQ. '') CIV2Wave_1(i__) = rNULL__ if(ar__5(60:66) .EQ. '') CIV3Wave_1(i__) = rNULL__ if(ar__5(68:74) .EQ. '') CIVNWave_1(i__) = rNULL__ if(ar__5(76:83) .EQ. '') CIV1sigma_1(i__) = rNULL__ if(ar__5(85:91) .EQ. '') e_CIV1sigma_1(i__) = rNULL__ if(ar__5(93:100) .EQ. '') CIV1FWHM_1(i__) = rNULL__ if(ar__5(102:109) .EQ. '') e_CIV1FWHM_1(i__) = rNULL__ if(ar__5(111:118) .EQ. '') CIV1Area_1(i__) = rNULL__ if(ar__5(120:126) .EQ. '') e_CIV1Area_1(i__) = rNULL__ if(ar__5(128:134) .EQ. '') CIV1EW_1(i__) = rNULL__ if(ar__5(136:142) .EQ. '') e_CIV1EW_1(i__) = rNULL__ if(ar__5(144:151) .EQ. '') CIV2sigma_1(i__) = rNULL__ if(ar__5(153:159) .EQ. '') e_CIV2sigma_1(i__) = rNULL__ if(ar__5(161:168) .EQ. '') CIV2FWHM_1(i__) = rNULL__ if(ar__5(170:177) .EQ. '') e_CIV2FWHM_1(i__) = rNULL__ if(ar__5(179:184) .EQ. '') CIV2Area_1(i__) = rNULL__ if(ar__5(186:191) .EQ. '') e_CIV2Area_1(i__) = rNULL__ if(ar__5(193:198) .EQ. '') CIV2EW_1(i__) = rNULL__ if(ar__5(200:205) .EQ. '') e_CIV2EW_1(i__) = rNULL__ if(ar__5(207:214) .EQ. '') CIV3sigma_1(i__) = rNULL__ if(ar__5(216:223) .EQ. '') e_CIV3sigma_1(i__) = rNULL__ if(ar__5(225:232) .EQ. '') CIV3FWHM_1(i__) = rNULL__ if(ar__5(234:241) .EQ. '') e_CIV3FWHM_1(i__) = rNULL__ if(ar__5(243:250) .EQ. '') CIV3Area_1(i__) = rNULL__ if(ar__5(252:259) .EQ. '') e_CIV3Area_1(i__) = rNULL__ if(ar__5(261:268) .EQ. '') CIV3EW_1(i__) = rNULL__ if(ar__5(270:277) .EQ. '') e_CIV3EW_1(i__) = rNULL__ if(ar__5(279:286) .EQ. '') CIVNFWHM_1(i__) = rNULL__ if(ar__5(288:294) .EQ. '') e_CIVNFWHM_1(i__) = rNULL__ if(ar__5(296:302) .EQ. '') CIVNArea_1(i__) = rNULL__ if(ar__5(304:311) .EQ. '') e_CIVNArea_1(i__) = rNULL__ if(ar__5(313:318) .EQ. '') CIVNEW_1(i__) = rNULL__ if(ar__5(320:325) .EQ. '') e_CIVNEW_1(i__) = rNULL__ if(ar__5(327:334) .EQ. '') rchi2_1CIV_1(i__) = rNULL__ if(ar__5(336:344) .EQ. '') rchi2_2CIV_1(i__) = rNULL__ if(ar__5(346:346) .EQ. '') stat_1CIV_1(i__) = iNULL__ if(ar__5(348:350) .EQ. '') stat_2CIV_1(i__) = iNULL__ if(ar__5(352:354) .EQ. '') NpixCIV_1(i__) = iNULL__ if(ar__5(356:361) .EQ. '') MedSNCIV_1(i__) = rNULL__ if(ar__5(363:368) .EQ. '') CNMgII_1(i__) = rNULL__ if(ar__5(370:374) .EQ. '') e_CNMgII_1(i__) = rNULL__ if(ar__5(376:380) .EQ. '') CSMgII_1(i__) = rNULL__ if(ar__5(382:385) .EQ. '') e_CSMgII_1(i__) = rNULL__ if(ar__5(387:390) .EQ. '') FenormMgII_1(i__) = rNULL__ if(ar__5(392:395) .EQ. '') e_FenormMgII_1(i__) = rNULL__ if(ar__5(397:404) .EQ. '') FeFWHMMgII_1(i__) = rNULL__ if(ar__5(406:413) .EQ. '') e_FeFWHMMgII_1(i__) = rNULL__ if(ar__5(415:421) .EQ. '') MgII1Wave_1(i__) = rNULL__ if(ar__5(423:429) .EQ. '') MgII2Wave_1(i__) = rNULL__ if(ar__5(431:437) .EQ. '') MgII3Wave_1(i__) = rNULL__ if(ar__5(439:445) .EQ. '') MgIInWave_2(i__) = rNULL__ if(ar__5(447:453) .EQ. '') MgIINWave_3(i__) = rNULL__ if(ar__5(455:461) .EQ. '') MgII1sigma_1(i__) = rNULL__ if(ar__5(463:469) .EQ. '') e_MgII1sigma_1(i__) = rNULL__ if(ar__5(471:478) .EQ. '') MgII1FWHM_1(i__) = rNULL__ if(ar__5(480:487) .EQ. '') e_MgII1FWHM_1(i__) = rNULL__ if(ar__5(489:495) .EQ. '') MgII1Area_1(i__) = rNULL__ if(ar__5(497:503) .EQ. '') e_MgII1Area_1(i__) = rNULL__ if(ar__5(505:510) .EQ. '') MgII1EW_1(i__) = rNULL__ if(ar__5(512:517) .EQ. '') e_MgII1EW_1(i__) = rNULL__ if(ar__5(519:525) .EQ. '') MgII2sigma_1(i__) = rNULL__ if(ar__5(527:533) .EQ. '') e_MgII2sigma_1(i__) = rNULL__ if(ar__5(535:542) .EQ. '') MgII2FWHM_1(i__) = rNULL__ if(ar__5(544:551) .EQ. '') e_MgII2FWHM_1(i__) = rNULL__ if(ar__5(553:558) .EQ. '') MgII2Area_1(i__) = rNULL__ if(ar__5(560:565) .EQ. '') e_MgII2Area_1(i__) = rNULL__ if(ar__5(567:572) .EQ. '') MgII2EW_1(i__) = rNULL__ if(ar__5(574:579) .EQ. '') e_MgII2EW_1(i__) = rNULL__ if(ar__5(581:587) .EQ. '') MgII3sigma_1(i__) = rNULL__ if(ar__5(589:595) .EQ. '') e_MgII3sigma_1(i__) = rNULL__ if(ar__5(597:604) .EQ. '') MgII3FWHM_1(i__) = rNULL__ if(ar__5(606:613) .EQ. '') e_MgII3FWHM_1(i__) = rNULL__ if(ar__5(615:621) .EQ. '') MgII3Area_1(i__) = rNULL__ if(ar__5(623:629) .EQ. '') e_MgII3Area_1(i__) = rNULL__ if(ar__5(631:636) .EQ. '') MgII3EW_1(i__) = rNULL__ if(ar__5(638:643) .EQ. '') e_MgII3EW_1(i__) = rNULL__ if(ar__5(645:652) .EQ. '') MgIINFWHM_2(i__) = rNULL__ if(ar__5(654:661) .EQ. '') e_MgIINFWHM_2(i__) = rNULL__ if(ar__5(663:669) .EQ. '') MgIINArea_2(i__) = rNULL__ if(ar__5(671:677) .EQ. '') e_MgIINArea_2(i__) = rNULL__ if(ar__5(679:684) .EQ. '') MgIINEW_2(i__) = rNULL__ if(ar__5(686:691) .EQ. '') e_MgIINEW_2(i__) = rNULL__ if(ar__5(693:699) .EQ. '') MgIINsigma_1(i__) = rNULL__ if(ar__5(701:707) .EQ. '') e_MgIINsigma_1(i__) = rNULL__ if(ar__5(709:715) .EQ. '') MgIInFWHM_3(i__) = rNULL__ if(ar__5(717:723) .EQ. '') e_MgIInFWHM_3(i__) = rNULL__ if(ar__5(725:732) .EQ. '') MgIInArea_3(i__) = rNULL__ if(ar__5(734:741) .EQ. '') e_MgIInArea_3(i__) = rNULL__ if(ar__5(743:749) .EQ. '') MgIInEW_3(i__) = rNULL__ if(ar__5(751:757) .EQ. '') e_MgIInEW_3(i__) = rNULL__ if(ar__5(759:767) .EQ. '') rchi2_1MgII_1(i__) = rNULL__ if(ar__5(769:776) .EQ. '') rchi2_2MgII_1(i__) = rNULL__ if(ar__5(778:778) .EQ. '') stat_1MgII_1(i__) = iNULL__ if(ar__5(780:782) .EQ. '') stat_2MgII_1(i__) = iNULL__ if(ar__5(784:786) .EQ. '') NpixMgII_1(i__) = iNULL__ if(ar__5(788:792) .EQ. '') MedSNMgII_1(i__) = rNULL__ if(ar__5(794:798) .EQ. '') CNHbeta_1(i__) = rNULL__ if(ar__5(800:803) .EQ. '') e_CNHbeta_1(i__) = rNULL__ if(ar__5(805:809) .EQ. '') CSHbeta_1(i__) = rNULL__ if(ar__5(811:815) .EQ. '') e_CSHbeta_1(i__) = rNULL__ if(ar__5(817:820) .EQ. '') FenormHbeta_1(i__) = rNULL__ if(ar__5(822:825) .EQ. '') e_FenormHbeta_1(i__) = rNULL__ if(ar__5(827:834) .EQ. '') FeFWHMHbeta_1(i__) = rNULL__ if(ar__5(836:842) .EQ. '') e_FeFWHMHbeta_1(i__) = rNULL__ if(ar__5(844:850) .EQ. '') Hbeta1Wave_1(i__) = rNULL__ if(ar__5(852:858) .EQ. '') Hbeta2Wave_1(i__) = rNULL__ if(ar__5(860:866) .EQ. '') Hbeta3Wave_1(i__) = rNULL__ if(ar__5(868:874) .EQ. '') HbetaNWave_1(i__) = rNULL__ if(ar__5(876:882) .EQ. '') OIII4959Wave_1(i__) = rNULL__ if(ar__5(884:890) .EQ. '') OIII5007Wave_1(i__) = rNULL__ if(ar__5(892:899) .EQ. '') Hbeta1sigma_1(i__) = rNULL__ if(ar__5(901:907) .EQ. '') e_Hbeta1sigma_1(i__) = rNULL__ if(ar__5(909:916) .EQ. '') Hbeta1FWHM_1(i__) = rNULL__ if(ar__5(918:925) .EQ. '') e_Hbeta1FWHM_1(i__) = rNULL__ if(ar__5(927:933) .EQ. '') Hbeta1Area_1(i__) = rNULL__ if(ar__5(935:939) .EQ. '') e_Hbeta1Area_1(i__) = rNULL__ if(ar__5(941:946) .EQ. '') Hbeta1EW_1(i__) = rNULL__ if(ar__5(948:953) .EQ. '') e_Hbeta1EW_1(i__) = rNULL__ if(ar__5(955:960) .EQ. '') HbetaNsigma_1(i__) = rNULL__ if(ar__5(962:967) .EQ. '') e_HbetaNsigma_1(i__) = rNULL__ if(ar__5(969:975) .EQ. '') HbetaNFWHM_1(i__) = rNULL__ if(ar__5(977:982) .EQ. '') e_HbetaNFWHM_1(i__) = rNULL__ if(ar__5(984:989) .EQ. '') HbetaNArea_1(i__) = rNULL__ if(ar__5(991:995) .EQ. '') e_HbetaNArea_1(i__) = rNULL__ if(ar__5(997:1001) .EQ. '') HbetaNEW_1(i__) = rNULL__ if(ar__5(1003:1007) .EQ. '') e_HbetaNEW_1(i__) = rNULL__ if(ar__5(1009:1014) .EQ. '') OIII4959sigma_1(i__) = rNULL__ if(ar__5(1016:1022) .EQ. '') e_OIII4959sigma_1(i__) = rNULL__ if(ar__5(1024:1030) .EQ. '') OIII4959FWHM_1(i__) = rNULL__ if(ar__5(1032:1038) .EQ. '') e_OIII4959FWHM_1(i__) = rNULL__ if(ar__5(1040:1045) .EQ. '') OIII4959Area_1(i__) = rNULL__ if(ar__5(1047:1051) .EQ. '') e_OIII4959Area_1(i__) = rNULL__ if(ar__5(1053:1058) .EQ. '') OIII4959EW_1(i__) = rNULL__ if(ar__5(1060:1065) .EQ. '') e_OIII4959EW_1(i__) = rNULL__ if(ar__5(1067:1072) .EQ. '') OIII5007sigma_1(i__) = rNULL__ if(ar__5(1074:1080) .EQ. '') e_OIII5007sigma_1(i__) = rNULL__ if(ar__5(1082:1088) .EQ. '') OIII5007FWHM_1(i__) = rNULL__ if(ar__5(1090:1096) .EQ. '') e_OIII5007FWHM_1(i__) = rNULL__ if(ar__5(1098:1103) .EQ. '') OIII5007Area_1(i__) = rNULL__ if(ar__5(1105:1109) .EQ. '') e_OIII5007Area_1(i__) = rNULL__ if(ar__5(1111:1116) .EQ. '') OIII5007EW_1(i__) = rNULL__ if(ar__5(1118:1123) .EQ. '') e_OIII5007EW_1(i__) = rNULL__ if(ar__5(1125:1129) .EQ. '') OIII_RATIO_1(i__) = rNULL__ if(ar__5(1131:1137) .EQ. '') Hbeta2sigma_1(i__) = rNULL__ if(ar__5(1139:1145) .EQ. '') e_Hbeta2sigma_1(i__) = rNULL__ if(ar__5(1147:1153) .EQ. '') Hbeta2FWHM_1(i__) = rNULL__ if(ar__5(1155:1162) .EQ. '') e_Hbeta2FWHM_1(i__) = rNULL__ if(ar__5(1164:1168) .EQ. '') Hbeta2Area_1(i__) = rNULL__ if(ar__5(1170:1174) .EQ. '') e_Hbeta2Area_1(i__) = rNULL__ if(ar__5(1176:1180) .EQ. '') Hbeta2EW_1(i__) = rNULL__ if(ar__5(1182:1186) .EQ. '') e_Hbeta2EW_1(i__) = rNULL__ if(ar__5(1188:1189) .EQ. '') Hbeta3sigma_1(i__) = iNULL__ if(ar__5(1191:1196) .EQ. '') e_Hbeta3sigma_1(i__) = rNULL__ if(ar__5(1198:1199) .EQ. '') Hbeta3FWHM_1(i__) = iNULL__ if(ar__5(1201:1206) .EQ. '') e_Hbeta3FWHM_1(i__) = rNULL__ if(ar__5(1208:1209) .EQ. '') Hbeta3Area_1(i__) = iNULL__ if(ar__5(1211:1214) .EQ. '') e_Hbeta3Area_1(i__) = rNULL__ if(ar__5(1216:1217) .EQ. '') Hbeta3EW_1(i__) = iNULL__ if(ar__5(1219:1222) .EQ. '') e_Hbeta3EW_1(i__) = rNULL__ if(ar__5(1224:1232) .EQ. '') rchi2_1Hbeta_1(i__) = rNULL__ if(ar__5(1234:1241) .EQ. '') rchi2_2Hbeta_1(i__) = rNULL__ if(ar__5(1243:1243) .EQ. '') stat_1Hbeta_1(i__) = iNULL__ if(ar__5(1245:1245) .EQ. '') stat_2Hbeta_1(i__) = iNULL__ if(ar__5(1247:1249) .EQ. '') NpixHbeta_1(i__) = iNULL__ if(ar__5(1251:1255) .EQ. '') MedSNHbeta_1(i__) = rNULL__ c ..............Just test output........... write(6,6) + ID_5(i__),CNCIV_1(i__),e_CNCIV_1(i__),CSCIV_1(i__), + e_CSCIV_1(i__),CIV1Wave_1(i__),CIV2Wave_1(i__), + CIV3Wave_1(i__),CIVNWave_1(i__),CIV1sigma_1(i__), + e_CIV1sigma_1(i__),CIV1FWHM_1(i__),e_CIV1FWHM_1(i__), + CIV1Area_1(i__),e_CIV1Area_1(i__),CIV1EW_1(i__), + e_CIV1EW_1(i__),CIV2sigma_1(i__),e_CIV2sigma_1(i__), + CIV2FWHM_1(i__),e_CIV2FWHM_1(i__),CIV2Area_1(i__), + e_CIV2Area_1(i__),CIV2EW_1(i__),e_CIV2EW_1(i__), + CIV3sigma_1(i__),e_CIV3sigma_1(i__),CIV3FWHM_1(i__), + e_CIV3FWHM_1(i__),CIV3Area_1(i__),e_CIV3Area_1(i__), + CIV3EW_1(i__),e_CIV3EW_1(i__),CIVNFWHM_1(i__), + e_CIVNFWHM_1(i__),CIVNArea_1(i__),e_CIVNArea_1(i__), + CIVNEW_1(i__),e_CIVNEW_1(i__),rchi2_1CIV_1(i__), + rchi2_2CIV_1(i__),stat_1CIV_1(i__),stat_2CIV_1(i__), + NpixCIV_1(i__),MedSNCIV_1(i__),CNMgII_1(i__),e_CNMgII_1(i__), + CSMgII_1(i__),e_CSMgII_1(i__),FenormMgII_1(i__), + e_FenormMgII_1(i__),FeFWHMMgII_1(i__),e_FeFWHMMgII_1(i__), + MgII1Wave_1(i__),MgII2Wave_1(i__),MgII3Wave_1(i__), + MgIInWave_2(i__),MgIINWave_3(i__),MgII1sigma_1(i__), + e_MgII1sigma_1(i__),MgII1FWHM_1(i__),e_MgII1FWHM_1(i__), + MgII1Area_1(i__),e_MgII1Area_1(i__),MgII1EW_1(i__), + e_MgII1EW_1(i__),MgII2sigma_1(i__),e_MgII2sigma_1(i__), + MgII2FWHM_1(i__),e_MgII2FWHM_1(i__),MgII2Area_1(i__), + e_MgII2Area_1(i__),MgII2EW_1(i__),e_MgII2EW_1(i__), + MgII3sigma_1(i__),e_MgII3sigma_1(i__),MgII3FWHM_1(i__), + e_MgII3FWHM_1(i__),MgII3Area_1(i__),e_MgII3Area_1(i__), + MgII3EW_1(i__),e_MgII3EW_1(i__),MgIINFWHM_2(i__), + e_MgIINFWHM_2(i__),MgIINArea_2(i__),e_MgIINArea_2(i__), + MgIINEW_2(i__),e_MgIINEW_2(i__),MgIINsigma_1(i__), + e_MgIINsigma_1(i__),MgIInFWHM_3(i__),e_MgIInFWHM_3(i__), + MgIInArea_3(i__),e_MgIInArea_3(i__),MgIInEW_3(i__), + e_MgIInEW_3(i__),rchi2_1MgII_1(i__),rchi2_2MgII_1(i__), + stat_1MgII_1(i__),stat_2MgII_1(i__),NpixMgII_1(i__), + MedSNMgII_1(i__),CNHbeta_1(i__),e_CNHbeta_1(i__), + CSHbeta_1(i__),e_CSHbeta_1(i__),FenormHbeta_1(i__), + e_FenormHbeta_1(i__),FeFWHMHbeta_1(i__),e_FeFWHMHbeta_1(i__), + Hbeta1Wave_1(i__),Hbeta2Wave_1(i__),Hbeta3Wave_1(i__), + HbetaNWave_1(i__),OIII4959Wave_1(i__),OIII5007Wave_1(i__), + Hbeta1sigma_1(i__),e_Hbeta1sigma_1(i__),Hbeta1FWHM_1(i__), + e_Hbeta1FWHM_1(i__),Hbeta1Area_1(i__),e_Hbeta1Area_1(i__), + Hbeta1EW_1(i__),e_Hbeta1EW_1(i__),HbetaNsigma_1(i__), + e_HbetaNsigma_1(i__),HbetaNFWHM_1(i__),e_HbetaNFWHM_1(i__), + HbetaNArea_1(i__),e_HbetaNArea_1(i__),HbetaNEW_1(i__), + e_HbetaNEW_1(i__),OIII4959sigma_1(i__),e_OIII4959sigma_1(i__), + OIII4959FWHM_1(i__),e_OIII4959FWHM_1(i__),OIII4959Area_1(i__), + e_OIII4959Area_1(i__),OIII4959EW_1(i__),e_OIII4959EW_1(i__), + OIII5007sigma_1(i__),e_OIII5007sigma_1(i__), + OIII5007FWHM_1(i__),e_OIII5007FWHM_1(i__),OIII5007Area_1(i__), + e_OIII5007Area_1(i__),OIII5007EW_1(i__),e_OIII5007EW_1(i__), + OIII_RATIO_1(i__),Hbeta2sigma_1(i__),e_Hbeta2sigma_1(i__), + Hbeta2FWHM_1(i__),e_Hbeta2FWHM_1(i__),Hbeta2Area_1(i__), + e_Hbeta2Area_1(i__),Hbeta2EW_1(i__),e_Hbeta2EW_1(i__), + Hbeta3sigma_1(i__),e_Hbeta3sigma_1(i__),Hbeta3FWHM_1(i__), + e_Hbeta3FWHM_1(i__),Hbeta3Area_1(i__),e_Hbeta3Area_1(i__), + Hbeta3EW_1(i__),e_Hbeta3EW_1(i__),rchi2_1Hbeta_1(i__), + rchi2_2Hbeta_1(i__),stat_1Hbeta_1(i__),stat_2Hbeta_1(i__), + NpixHbeta_1(i__),MedSNHbeta_1(i__) c .......End.of.Just test output........... end do close(1) C============================================================================= stop end