XTENSION= 'BINTABLE          ' /
BITPIX  =                    8 /
NAXIS   =                    2 /
NAXIS1  =           NNNNNNNNNN / Number of objects in the table
NAXIS2  =                  448 / Number of bytes per row 
PCOUNT  =                    0 /
GCOUNT  =                    1 /
TFIELDS =                  112 /
EXTNAME = 'EXTENDED_SRC_PARMS' /
COMMENT
COMMENT   This HDU applies to all detections that have been analyzed
COMMENT   with the IPP extended source fitting procedure. 
COMMENT   Note that the IPP_IDET must be unique within a file so as 
COMMENT   to allow matching up sources between the PSF matching and 
COMMENT   either the alternative PSF fits for P2, P4S, and P4D 
COMMENT   detections or the extended source fits to the 
COMMENT   Image Stack/Cumulative Sky detections.
COMMENT
TTYPE1  = 'IPP_IDET          ' / IPP detection identifer index
TUNIT1  = '                  ' /
TFORM1  = 'J                 ' /
TTYPE2  = 'PET_R             ' / Petrosian radius
TUNIT2  = 'ARCSECONDS        ' /
TFORM2  = 'E                 ' /
TTYPE3  = 'PET_MAG           ' / Petrosian magnitude
TUNIT3  = 'MAG               ' /
TFORM3  = 'E                 ' /
TTYPE4  = 'PET_R50           ' / Petrosian radius for 50% light
TUNIT4  = 'ARCSECONDS        ' /
TFORM4  = 'E                 ' /
TTYPE4  = 'PET_R90           ' / Petrosian radius for 90% light
TUNIT4  = 'ARCSECONDS        ' /
TFORM4  = 'E                 ' /
TTYPE6  = 'RA_PET            ' / RA from Petrosian fit
TUNIT6  = 'DECIMAL DEGREES   ' /
TFORM6  = 'D                 ' /
TTYPE7  = 'DEC_PET           ' / DEC from Petrosian fit
TUNIT7  = 'DECIMAL DEGREES   ' /
TFORM7  = 'D                 ' /
TTYPE8  = 'RA_PET_SIG        ' / Sigma of Petrosian fit RA
TUNIT8  = 'ARCSECONDS        ' /
TFORM8  = 'E                 ' /
TTYPE9  = 'DEC_PET_SIG       ' / Sigma of Petrosian fit DEC
TUNIT9  = 'ARCSECONDS        ' /
TFORM9  = 'E                 ' /
TTYPE10 = 'PET_QF            ' / Petrosian coverage/quality factor
TUNIT10 = '                  ' /
TFORM10 = 'E                 ' /
TTYPE11 = 'DEV_R             ' / deVaucouleurs radius
TUNIT11 = 'ARCSECONDS        ' /
TFORM11 = 'E                 ' /
TTYPE12 = 'MAG_DEV           ' / deVaucouleurs magnitude
TUNIT12 = 'MAG               ' /
TFORM12 = 'E                 ' /
TTYPE13 = 'MAG_DEV_SIG       ' / Sigma of deVaucouleurs magnitude
TUNIT13 = 'MAG               ' /
TFORM13 = 'E                 ' /
TTYPE14 = 'DEV_AB            ' / deVaucouleurs axis ratio
TUNIT14 = '                  ' /
TFORM14 = 'E                 ' /
TTYPE15 = 'DEV_PHI           ' / deVaucouleurs orientation angle
TUNIT15 = 'DEGREES           ' /
TFORM15 = 'E                 ' /
TTYPE16 = 'RA_DEV            ' / RA from deVaucouleurs fit
TUNIT16 = 'DECIMAL DEGREES   ' /
TFORM16 = 'D                 ' /
TTYPE17 = 'DEC_DEV           ' / DEC from deVaucouleurs fit
TUNIT17 = 'DECIMAL DEGREES   ' /
TFORM17 = 'D                 ' /
TTYPE18 = 'RA_DEV_SIG        ' / Sigma of deVaucouleurs fit RA
TUNIT18 = 'ARCSECONDS        ' /
TFORM18 = 'E                 ' /
TTYPE19 = 'DEC_DEV_SIG       ' / Sigma of deVaucouleurs fit DEC
TUNIT19 = 'ARCSECONDS        ' /
TFORM19 = 'E                 ' /
TTYPE20 = 'DEV_QF            ' / deVaucouleurs coverage/quality factor
TUNIT20 = '                  ' /
TFORM20 = 'E                 ' /
TTYPE21 = 'EXP_R             ' / Exponential fit model radius
TUNIT21 = 'ARCSECONDS        ' /
TFORM21 = 'E                 ' /
TTYPE22 = 'MAG_EXP           ' / Exponential fit model magnitude
TUNIT22 = 'MAG               ' /
TFORM22 = 'E                 ' /
TTYPE23 = 'MAG__EXP_SIG      ' / Sigma of Exponential fit model magnitude
TUNIT23 = 'MAG               ' /
TFORM23 = 'E                 ' /
TTYPE24 = 'EXP_AB            ' / Exponential fit model axis ratio
TUNIT24 = '                  ' /
TFORM24 = 'E                 ' /
TTYPE25 = 'EXP_PHI           ' / Exponetial fit orientation angle
TUNIT25 = 'DEGREES           ' /
TFORM25 = 'E                 ' /
TTYPE26 = 'RA_EXP            ' / RA from Expondential model fit
TUNIT26 = 'DECIMAL DEGREES   ' /
TFORM26 = 'D                 ' /
TTYPE27 = 'DEC_EXP           ' / DEC from Expondential model fit
TUNIT27 = 'DECIMAL DEGREES   ' /
TFORM27 = 'D                 ' /
TTYPE28 = 'RA_EXP_SIG        ' / Sigma of Expondential model fit RA
TUNIT28 = 'ARCSECONDS        ' /
TFORM28 = 'E                 ' /
TTYPE29 = 'DEC_EXP_SIG       ' / Sigma of Expondential model fit DEC
TUNIT29 = 'ARCSECONDS        ' /
TFORM29 = 'E                 ' /
TTYPE30 = 'EXP_QF            ' / Exponential fit coverage/quality factor
TUNIT30 = '                  ' /
TFORM30 = 'E                 ' /
TTYPE31 = 'SER_R             ' / Sersic fit model radius
TUNIT31 = 'ARCSECONDS        ' /
TFORM31 = 'E                 ' /
TTYPE32 = 'MAG_SER           ' / Sersic fit model magnitude
TUNIT32 = 'MAG               ' /
TFORM32 = 'E                 ' /
TTYPE33 = 'MAG_SER_SIG       ' / Sigma of Sersic fit model magnitude
TUNIT33 = 'MAG               ' /
TFORM33 = 'E                 ' /
TTYPE34 = 'SER_AB            ' / Sersic fit model axis ratio
TUNIT34 = '                  ' /
TFORM34 = 'E                 ' /
TTYPE35 = 'SER_PHI           ' / Exponetial fit orientation angle
TUNIT35 = 'DEGREES           ' /
TFORM35 = 'E                 ' /
TTYPE36 = 'SER_NU            ' / Sersic fit index nu
TUNIT36 = '                  ' /
TFORM36 = 'E                 ' /
TTYPE16 = 'RA_SER            ' / RA from Sersic fit
TUNIT16 = 'DECIMAL DEGREES   ' /
TFORM16 = 'D                 ' /
TTYPE37 = 'DEC_SER           ' / DEC from Sersic fit
TUNIT37 = 'DECIMAL DEGREES   ' /
TFORM37 = 'D                 ' /
TTYPE38 = 'RA_SER_SIG        ' / Sigma of Sersic fit RA
TUNIT38 = 'ARCSECONDS        ' /
TFORM38 = 'E                 ' /
TTYPE39 = 'DEC_SER_SIG       ' / Sigma of Sersic fit DEC
TUNIT39 = 'ARCSECONDS        ' /
TFORM39 = 'E                 ' /
TTYPE40 = 'SER_QF            ' / Sersic fit coverage/quality factor
TUNIT40 = '                  ' /
TFORM40 = 'E                 ' /
TTYPE41 = 'PCS_R             ' / PSF Convolved Sersic fit model radius
TUNIT41 = 'ARCSECONDS        ' /
TFORM41 = 'E                 ' /
TTYPE42 = 'MAG_PSC           ' / PSF Convolved Sersic fit model magnitude
TUNIT42 = 'MAG               ' /
TFORM42 = 'E                 ' /
TTYPE43 = 'MAG_PSC_SIG       ' / Sigma of PSF Convolved Sersic fit model magnitude
TUNIT43 = 'MAG               ' /
TFORM43 = 'E                 ' /
TTYPE44 = 'PCS_AB            ' / PSF Convolved Sersic fit model axis ratio
TUNIT44 = '                  ' /
TFORM45 = 'E                 ' /
TTYPE46 = 'PCS_PHI           ' / Exponetial fit orientation angle
TUNIT46 = 'DEGREES           ' /
TFORM46 = 'E                 ' /
TTYPE47 = 'PCS_NU            ' / PSF Convolved Sersic fit index nu
TUNIT47 = '                  ' /
TFORM47 = 'E                 ' /
TTYPE48 = 'RA_PSC            ' / RA from PSF Convolved Sersic fit
TUNIT48 = 'DECIMAL DEGREES   ' /
TFORM48 = 'D                 ' /
TTYPE49 = 'DEC_PSC           ' / DEC from PSF Convolved Sersic fit
TUNIT49 = 'DECIMAL DEGREES   ' /
TFORM49 = 'D                 ' /
TTYPE50 = 'RA_PSC_SIG        ' / Sigma of PSF Convolved Sersic fit RA
TUNIT50 = 'ARCSECONDS        ' /
TFORM50 = 'E                 ' /
TTYPE51 = 'DEC_PSC_SIG       ' / Sigma of PSF Convolved Sersic fit DEC
TUNIT51 = 'ARCSECONDS        ' /
TFORM51 = 'E                 ' /
TTYPE52 = 'PCS_QF            ' / PSF Convolved Sersic coverage/quality factor
TUNIT52 = '                  ' /
TFORM52 = 'E                 ' /
TTYPE53 = 'WL_SIGMA          ' / Weak lensing sigma
TUNIT53 = '                  ' /
TFORM53 = 'E                 ' /
TTYPE54 = 'EPS_1             ' / Weak lensing eps(1)
TUNIT54 = '                  ' /
TFORM54 = 'E                 ' /
TTYPE55 = 'EPS_2             ' / Weak lensing eps(2)
TUNIT55 = '                  ' /
TFORM55 = 'E                 ' /
TTYPE56 = 'P_SM_1_1          ' / Weak lensing P_SM(1,1)
TUNIT56 = '                  ' /
TFORM56 = 'E                 ' /
TTYPE57 = 'P_SM_1_2          ' / Weak lensing P_SM(1,2)
TUNIT57 = '                  ' /
TFORM57 = 'E                 ' /
TTYPE58 = 'P_SM_2_1          ' / Weak lensing P_SM(2,1)
TUNIT58 = '                  ' /
TFORM58 = 'E                 ' /
TTYPE59 = 'P_SM_2_2          ' / Weak lensing P_SM(2,2)
TUNIT59 = '                  ' /
TFORM59 = 'E                 ' /
TTYPE60 = 'P_SH_1_1          ' / Weak lensing P_SH(1,1)
TUNIT60 = '                  ' /
TFORM60 = 'E                 ' /
TTYPE61 = 'P_SH_1_2          ' / Weak lensing P_SH(1,2)
TUNIT61 = '                  ' /
TFORM61 = 'E                 ' /
TTYPE62 = 'P_SH_2_1          ' / Weak lensing P_SH(2,1)
TUNIT62 = '                  ' /
TFORM62 = 'E                 ' /
TTYPE63 = 'P_SH_2_2          ' / Weak lensing P_SH(2,2)
TUNIT63 = '                  ' /
TFORM63 = 'E                 ' /
TTYPE64 = 'SB_R_1            ' / Surface brightness inside R #1
TUNIT64 = 'MAG               ' /
TFORM64 = 'E                 ' /
TTYPE65 = 'SB_R_1_ERR        ' / Estimated error of SB inside R #1
TUNIT65 = 'MAG               ' /
TFORM65 = 'E                 ' /
TTYPE66 = 'SB_R_1_VAR        ' / Estimated variance of SB inside R #1
TUNIT66 = 'MAG               ' /
TFORM66 = 'E                 ' /
TTYPE67 = 'SB_R_2            ' / Surface brightness inside R #2
TUNIT67 = 'MAG               ' /
TFORM67 = 'E                 ' /
TTYPE68 = 'SB_R_2_ERR        ' / Estimated error of SB inside R #2
TUNIT68 = 'MAG               ' /
TFORM68 = 'E                 ' /
TTYPE69 = 'SB_R_2_VAR        ' / Estimated variance of SB inside R #2
TUNIT69 = 'MAG               ' /
TFORM69 = 'E                 ' /
TTYPE70 = 'SB_R_3            ' / Surface brightness inside R #3
TUNIT70 = 'MAG               ' /
TFORM70 = 'E                 ' /
TTYPE71 = 'SB_R_3_ERR        ' / Estimated error of SB inside R #3
TUNIT71 = 'MAG               ' /
TFORM71 = 'E                 ' /
TTYPE72 = 'SB_R_3_VAR        ' / Estimated variance of SB inside R #3
TUNIT72 = 'MAG               ' /
TFORM72 = 'E                 ' /
TTYPE73 = 'SB_R_4            ' / Surface brightness inside R #4
TUNIT73 = 'MAG               ' /
TFORM73 = 'E                 ' /
TTYPE74 = 'SB_R_4_ERR        ' / Estimated error of SB inside R #4
TUNIT74 = 'MAG               ' /
TFORM74 = 'E                 ' /
TTYPE75 = 'SB_R_4_VAR        ' / Estimated variance of SB inside R #4
TUNIT75 = 'MAG               ' /
TFORM75 = 'E                 ' /
TTYPE76 = 'SB_R_5            ' / Surface brightness inside R #5
TUNIT76 = 'MAG               ' /
TFORM76 = 'E                 ' /
TTYPE77 = 'SB_R_5_ERR        ' / Estimated error of SB inside R #5
TUNIT77 = 'MAG               ' /
TFORM77 = 'E                 ' /
TTYPE78 = 'SB_R_5_VAR        ' / Estimated variance of SB inside R #5
TUNIT78 = 'MAG               ' /
TFORM78 = 'E                 ' /
TTYPE79 = 'SB_R_6            ' / Surface brightness inside R #6
TUNIT79 = 'MAG               ' /
TFORM79 = 'E                 ' /
TTYPE80 = 'SB_R_6_ERR        ' / Estimated error of SB inside R #6
TUNIT80 = 'MAG               ' /
TFORM80 = 'E                 ' /
TTYPE81 = 'SB_R_5_VAR        ' / Estimated variance of SB inside R #6
TUNIT81 = 'MAG               ' /
TFORM81 = 'E                 ' /
TTYPE82 = 'SB_R_7            ' / Surface brightness inside R #7
TUNIT82 = 'MAG               ' /
TFORM82 = 'E                 ' /
TTYPE83 = 'SB_R_7_ERR        ' / Estimated error of SB inside R #7
TUNIT83 = 'MAG               ' /
TFORM83 = 'E                 ' /
TTYPE84 = 'SB_R_7_VAR        ' / Estimated variance of SB inside R #7
TUNIT84 = 'MAG               ' /
TFORM84 = 'E                 ' /
TTYPE85 = 'SB_R_8            ' / Surface brightness inside R #8
TUNIT85 = 'MAG               ' /
TFORM85 = 'E                 ' /
TTYPE86 = 'SB_R_8_ERR        ' / Estimated error of SB inside R #8
TUNIT86 = 'MAG               ' /
TFORM86 = 'E                 ' /
TTYPE87 = 'SB_R_8_VAR        ' / Estimated variance of SB inside R #8
TUNIT87 = 'MAG               ' /
TFORM87 = 'E                 ' /
TTYPE88 = 'SB_R_9            ' / Surface brightness inside R #9
TUNIT88 = 'MAG               ' /
TFORM88 = 'E                 ' /
TTYPE89 = 'SB_R_9_ERR        ' / Estimated error of SB inside R #9
TUNIT89 = 'MAG               ' /
TFORM89 = 'E                 ' /
TTYPE90 = 'SB_R_9_VAR        ' / Estimated variance of SB inside R #9
TUNIT90 = 'MAG               ' /
TFORM90 = 'E                 ' /
TTYPE91 = 'SB_R_10           ' / Surface brightness inside R #10
TUNIT91 = 'MAG               ' /
TFORM91 = 'E                 ' /
TTYPE92 = 'SB_R_10_ERR       ' / Estimated error of SB inside R #10
TUNIT92 = 'MAG               ' /
TFORM92 = 'E                 ' /
TTYPE93 = 'SB_R_10_VAR       ' / Estimated variance of SB inside R #10
TUNIT93 = 'MAG               ' /
TFORM93 = 'E                 ' /
TTYPE94 = 'SB_R_11           ' / Surface brightness inside R #11
TUNIT94 = 'MAG               ' /
TFORM94 = 'E                 ' /
TTYPE95 = 'SB_R_11_ERR       ' / Estimated error of SB inside R #11
TUNIT95 = 'MAG               ' /
TFORM95 = 'E                 ' /
TTYPE96 = 'SB_R_11_VAR       ' / Estimated variance of SB inside R #11
TUNIT96 = 'MAG               ' /
TFORM96 = 'E                 ' /
TTYPE97 = 'SB_R_12           ' / Surface brightness inside R #12
TUNIT97 = 'MAG               ' /
TFORM97 = 'E                 ' /
TTYPE98 = 'SB_R_12_RR        ' / Estimated error of SB inside R #12
TUNIT98 = 'MAG               ' /
TFORM98 = 'E                 ' /
TTYPE99 = 'SB_R_12_VAR       ' / Estimated variance of SB inside R #12
TUNIT99 = 'MAG               ' /
TFORM99 = 'E                 ' /
TTYPE100= 'SB_R_13           ' / Surface brightness inside R #13
TUNIT100= 'MAG               ' /
TFORM100= 'E                 ' /
TTYPE101= 'SB_R_13_ERR       ' / Estimated error of SB inside R #13
TUNIT101= 'MAG               ' /
TFORM101= 'E                 ' /
TTYPE102= 'SB_R_13_VAR       ' / Estimated variance of SB inside R #13
TUNIT102= 'MAG               ' /
TFORM102= 'E                 ' /
TTYPE103= 'SB_R_14           ' / Surface brightness inside R #14
TUNIT103= 'MAG               ' /
TFORM103= 'E                 ' /
TTYPE104= 'SB_R_14_ERR       ' / Estimated error of SB inside R #14
TUNIT104= 'MAG               ' /
TFORM104= 'E                 ' /
TTYPE105= 'SB_R_14_VAR       ' / Estimated variance of SB inside R #14
TUNIT106= 'MAG               ' /
TFORM106= 'E                 ' /
TTYPE107= 'SB_R_15           ' / Surface brightness inside R #15
TUNIT107= 'MAG               ' /
TFORM107= 'E                 ' /
TTYPE108= 'SB_R_15_ERR       ' / Estimated error of SB inside R #15
TUNIT108= 'MAG               ' /
TFORM108= 'E                 ' /
TTYPE109= 'SB_R_15_VAR       ' / Estimated variance of SB inside R #15
TUNIT109= 'MAG               ' /
TFORM109= 'E                 ' /
TTYPE110= 'LOG_A             ' / Log of asymmetry parameter
TUNIT110= '                  ' /
TFORM110= 'E                 ' /
TTYPE111= 'LOG_C             ' / Log of concentration parameter
TUNIT111= '                  ' /
TFORM111= 'E                 ' /
TTYPE112= 'INCL              ' / Inclination
TUNIT112= '                  ' /
TFORM112= 'E                 ' /
CHECKSUM=                      / Header checksum
DATASUM =                      / Data checksum
