instrument_description.xcat
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\instrument_description.xcat
\------------------------------------------------------------------
\Caution: units and flux_conv wrong for MIPS
\Caution: units and flux_conv probably wrong for IRAC and bolocam
\Caution: PACS wavelengths must be checked
\------------------------------------------------------------------
\instru: instrument name -- must match the non-numerical part of filter name
\filter: filter name used by DustEMWrap
\wave: reference wavelength in microns
\bunit: typical brightness unit of archival data -- for convenience only
\flux_conv : flux convention
\reso_orig: intrinsic angular resolution in degrees -- for convenience only
\sighit: sigma for one hit (except for some experiments) -- for convenience only
\sigabs: absolute uncertainty in percent (%) -- for convenience only
\name : filter name used by original instrument team -- for convenience only
\filename : file containing filter transmission information (in subdirectories of Data/FILTERS/)
\trans_conv : convention used to specify filter transmission curve -- for convenience only
\--------------------------------------------------------------------------------------------------------------------------------------------------------------------
|INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |NAME |Filename |
|char |char |real |char |char |real |real |real |char |char |
|NULL |NULL |NULL |NULL |NULL |NULL |NULL |NULL |NULL |NULL |
\--------------------------------------------------------------------------------------------------------------------------------------------------------------------
\=========JWST/NIRCAM filter files (v4.0 April 2016) downloaded from NIRCam filters page of JWST-docs =============================================
\========= Contact Scientist: Bryan Hilbert, STScI, hilbert@stsci.edu ===========================================================================================
\========= Reference wavelength = pivot wavelength, see Gordon et al (2022) AJ, 163, 267G =========================================================
\========= Transmissions represent total throughput of energy (including the blocking filter if relevant) =========================================
\========= By default, averaged module A and B throughputs are used by DustEMWrap ================================================================
\========= Separate module A and B throughput files are also provided in the Data/FILTERS/NIRCAM/ directory =============================================
\========= and can be invoked using filter names e.g. NIRCAMA1: F070W + module A, NIRCAMB14: F070W + module B, =====================================
NIRCAM NIRCAM1 0.704323 flambda=cste F070W F070W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM2 0.902381 flambda=cste F090W F090W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM3 1.154065 flambda=cste F115W F115W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM4 1.405601 flambda=cste F140M F140M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM5 1.500799 flambda=cste F150W F150W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM6 1.627364 flambda=cste F162M F162M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM7 1.644702 flambda=cste F164N F164N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM8 1.657596 flambda=cste F150W2 F150W2_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM9 1.844911 flambda=cste F182M F182M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM10 1.872914 flambda=cste F187N F187N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM11 1.988332 flambda=cste F200W F200W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM12 2.095315 flambda=cste F210M F210M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM13 2.122228 flambda=cste F212N F212N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM14 2.504492 flambda=cste F250M F250M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM15 2.768483 flambda=cste F277W F277W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM16 2.994073 flambda=cste F300M F300M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM17 3.231917 flambda=cste F322W2 F322W2_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM18 3.236066 flambda=cste F323N F323N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM19 3.362212 flambda=cste F335M F335M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM20 3.568228 flambda=cste F356W F356W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM21 3.624104 flambda=cste F360M F360M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM22 4.054260 flambda=cste F405N F405N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM23 4.082090 flambda=cste F410M F410M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM24 4.282131 flambda=cste F430M F430M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM25 4.403900 flambda=cste F444W F444W_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM26 4.632282 flambda=cste F460M F460M_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM27 4.654755 flambda=cste F466N F466N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM28 4.702287 flambda=cste F470N F470N_NRC_and_OTE_ModAB_mean.txt
NIRCAM NIRCAM29 4.815854 flambda=cste F480M F480M_NRC_and_OTE_ModAB_mean.txt
\========= Total System transmission curves for observations using Module A only =====================================
NIRCAMA NIRCAMA1 0.704323 flambda=cste F070W F070W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA2 0.902381 flambda=cste F090W F090W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA3 1.154065 flambda=cste F115W F115W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA4 1.405601 flambda=cste F140M F140M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA5 1.500799 flambda=cste F150W F150W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA6 1.627364 flambda=cste F162M F162M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA7 1.644702 flambda=cste F164N F164N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA8 1.657596 flambda=cste F150W2 F150W2_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA9 1.844911 flambda=cste F182M F182M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA10 1.872914 flambda=cste F187N F187N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA11 1.988332 flambda=cste F200W F200W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA12 2.095315 flambda=cste F210M F210M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA13 2.122228 flambda=cste F212N F212N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA14 2.504492 flambda=cste F250M F250M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA15 2.768483 flambda=cste F277W F277W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA16 2.994073 flambda=cste F300M F300M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA17 3.231917 flambda=cste F322W2 F322W2_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA18 3.236066 flambda=cste F323N F323N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA19 3.362212 flambda=cste F335M F335M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA20 3.568228 flambda=cste F356W F356W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA21 3.624104 flambda=cste F360M F360M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA22 4.054260 flambda=cste F405N F405N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA23 4.082090 flambda=cste F410M F410M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA24 4.282131 flambda=cste F430M F430M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA25 4.403900 flambda=cste F444W F444W_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA26 4.632282 flambda=cste F460M F460M_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA27 4.654755 flambda=cste F466N F466N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA28 4.702287 flambda=cste F470N F470N_nircam_plus_ote_throughput_moda_sorted.txt
NIRCAMA NIRCAMA29 4.815854 flambda=cste F480M F480M_nircam_plus_ote_throughput_moda_sorted.txt
\========= Total System transmission curves for observations using Module B only =====================================
NIRCAMB NIRCAMB1 0.704323 flambda=cste F070W F070W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB2 0.902381 flambda=cste F090W F090W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB3 1.154065 flambda=cste F115W F115W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB4 1.405601 flambda=cste F140M F140M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB5 1.500799 flambda=cste F150W F150W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB6 1.627364 flambda=cste F162M F162M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB7 1.644702 flambda=cste F164N F164N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB8 1.657596 flambda=cste F150W2 F150W2_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB9 1.844911 flambda=cste F182M F182M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB10 1.872914 flambda=cste F187N F187N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB11 1.988332 flambda=cste F200W F200W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB12 2.095315 flambda=cste F210M F210M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB13 2.122228 flambda=cste F212N F212N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB14 2.504492 flambda=cste F250M F250M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB15 2.768483 flambda=cste F277W F277W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB16 2.994073 flambda=cste F300M F300M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB17 3.231917 flambda=cste F322W2 F322W2_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB18 3.236066 flambda=cste F323N F323N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB19 3.362212 flambda=cste F335M F335M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB20 3.568228 flambda=cste F356W F356W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB21 3.624104 flambda=cste F360M F360M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB22 4.054260 flambda=cste F405N F405N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB23 4.082090 flambda=cste F410M F410M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB24 4.282131 flambda=cste F430M F430M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB25 4.403900 flambda=cste F444W F444W_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB26 4.632282 flambda=cste F460M F460M_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB27 4.654755 flambda=cste F466N F466N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB28 4.702287 flambda=cste F470N F470N_nircam_plus_ote_throughput_modb_sorted.txt
NIRCAMB NIRCAMB29 4.815854 flambda=cste F480M F480M_nircam_plus_ote_throughput_modb_sorted.txt
\=========JWST MIRI filter files constructed from Pandeia Engine version 1.7 data files ===========================================================
\========= Contact Scientist: Karl Gordon, STScI, kgordon@stsci.edu ============================================================================================
\========= Reference wavelength = pivot wavelength, see Gordon et al (2022) =================================================================
\========= Transmissions represent total throughput of energy ===============================================================================
MIRI MIRI1 5.63619630 flambda=cste F0560W jwst_miri_f0560w.fits
MIRI MIRI2 7.64577776 flambda=cste F0770W jwst_miri_f0770w.fits
MIRI MIRI3 9.95328271 flambda=cste F1000W jwst_miri_f1000w.fits
MIRI MIRI4 10.5958888 flambda=cste F1065C jwst_miri_f1065c.fits
MIRI MIRI5 11.3049857 flambda=cste F1140C jwst_miri_f1140c.fits
MIRI MIRI6 11.3102220 flambda=cste F1130W jwst_miri_f1130w.fits
MIRI MIRI7 12.8151874 flambda=cste F1280W jwst_miri_f1280w.fits
MIRI MIRI8 15.0508478 flambda=cste F1500W jwst_miri_f1500w.fits
MIRI MIRI9 15.5116694 flambda=cste F1550C jwst_miri_f1550c.fits
MIRI MIRI10 17.9695595 flambda=cste F1800W jwst_miri_f1800w.fits
MIRI MIRI11 20.8015428 flambda=cste F2100W jwst_miri_f2100w.fits
MIRI MIRI12 22.6615252 flambda=cste F2300C jwst_miri_f2300c.fits
MIRI MIRI13 25.2323335 flambda=cste F2550W jwst_miri_f2550w.fits
\=========JWST/NIRISS filter files (v. September 2021) downloaded from NIRISS filters page of JWST-docs =============================================
\========= Contact Scientist: XXXXXX ============================================================================================
\========= Reference wavelength = pivot wavelength, see Gordon et al (2022) AJ, 163, 267G =========================================================
\========= Transmissions represent total throughput of energy (including the blocking filter if relevant) =========================================
NIRISS NIRISS1 0.900389 flambda=cste F090W NIRISS_F090W.txt
NIRISS NIRISS2 1.150102 flambda=cste F115W NIRISS_F115W.txt
NIRISS NIRISS3 1.405134 flambda=cste F140M NIRISS_F140M.txt
NIRISS NIRISS4 1.498293 flambda=cste F150W NIRISS_F150W.txt
NIRISS NIRISS5 1.586646 flambda=cste F158M NIRISS_F158M.txt
NIRISS NIRISS6 1.983678 flambda=cste F200W NIRISS_F200W.txt
NIRISS NIRISS7 2.775790 flambda=cste F277W NIRISS_F277W.txt
NIRISS NIRISS8 3.594819 flambda=cste F356W NIRISS_F356W.txt
NIRISS NIRISS9 3.828358 flambda=cste F380M NIRISS_F380M.txt
NIRISS NIRISS10 4.285510 flambda=cste F430M NIRISS_F430M.txt
NIRISS NIRISS11 4.434596 flambda=cste F444W NIRISS_F444W.txt
NIRISS NIRISS12 4.816824 flambda=cste F480M NIRISS_F480M.txt
\========= Filter information for PILOT taken from Bernard et al (2022) ==========================================================================
PILOT PILOT1 240 MJy/sr nuInu=cste 0.03666667 NULL NULL
\========= Filter information for HAWC+ taken from Chuss et al (2019) ============================================================================
HAWCPLUS HAWCPLUS1 53 MJy/sr nuInu=cste 0.001361111 NULL NULL
HAWCPLUS HAWCPLUS2 89 MJy/sr nuInu=cste 0.002166667 NULL NULL
HAWCPLUS HAWCPLUS3 154 MJy/sr nuInu=cste 0.003777778 NULL NULL
HAWCPLUS HAWCPLUS4 214 MJy/sr nuInu=cste 0.005055556 NULL NULL
\========= additional filters provided by Longji Bing ============================================================================================
\JPB modified the name of filters to intrument# with # starting from 1, for consistency.
\The resolution of Spitzer IRS, SCUBA2, NIKA2 1.2mm and NIKA2 2.0mm are 3.8", 13.0", 11.7" and 17.0", respectively.
IRS IRS1 15.687 MJy/sr NULL 0.001055555
SCUBA2 SCUBA21 863.218 MJy/sr nuInu=cste 0.003611111
NIKA2 NIKA21 1187.537 MJy/sr nuInu=cste 0.003249999
NIKA2 NIKA22 2025.892 MJy/sr nuInu=cste 0.004722222
\=== Non-photometric data (This is not necessary, as spectrometer data don't require information about the instrument)
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
IRS IRS_spec -32768. MJy/sr NULL
\========= S-PASS ==========
\information taken from Carretti et al. 2019
\flux convention does not really matter (narrow band of 8 MHz for 2.3 GHz). Resolution is 8.9' (0.148333 deg)
\ref frequency is actually 2.303 GHz (130174.74 mic)
SPASS SPASS1 130174.74 MJy/sr NULL 0.14833333 5.0
\========= ZOA-FF (free free from Alves, M. I. R., et al, 2015, MNRAS, 450, 2025) ==========
\information taken from Alves, M. I. R., et al, 2015, MNRAS, 450, 2025
\flux convention does not really matter (narrow band of ? MHz for 1.4 GHz)
\CHIPASS ZOA_FF1 214286. MJy/sr NULL 0.24 5.0
\========= CHI-PASS ==========
\information taken from Calabretta, M. et al. 2014, PASA, 31, 7
\flux convention does not really matter (narrow band of ? MHz for 1.4 GHz)
CHIPASS CHIPASS1 214286. MJy/sr NULL 0.24 5.0
\========= IRAC ====================================================================================================
\resolution taken to be 1.7, 1.7, 1.9, 2" (eg Meixner et al)
IRAC IRAC1 3.55000 MJy/sr IRAC 0.000472222
IRAC IRAC2 4.49300 MJy/sr IRAC 0.000472222
IRAC IRAC3 5.73100 MJy/sr IRAC 0.000527778
IRAC IRAC4 7.87200 MJy/sr IRAC 0.000555556
\========= IRAS ====================================================================================================
\ang resolution from IRIS web site: 3.8,3.8,4.0,4.3'
\ang resolution error: +-0.2 in all bands
\sig_hit=[0.04,0.05,0.03,0.06] ;errors in MJy/sr (according to MAMD, this is for "average" coverage, not 1 hit)
\iris_abs_error=[5.1,15.1,10.4,13.5] ; in % from www.cita.utoronto.ca/~mamd/IRIS/IrisTechnical.html
IRAS IRAS1 12.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
IRAS IRAS2 25.0000 MJy/sr nuInu=cste 0.0633333 0.05 15.1
IRAS IRAS3 60.0000 MJy/sr nuInu=cste 0.0666667 0.03 10.4
IRAS IRAS4 100.000 MJy/sr nuInu=cste 0.0716667 0.06 13.5
\========= AKARI ====================================================================================================
\Akari filters are S9w, L18w, N60, WS, N160, WL (Ryou)
\Akari filters are N60, WS, N160, WL
\wavelength provided by M. Juvela & Ryou Ohsawa
AKARI AKARI1 9.000 MJy/sr nuInu=cste
AKARI AKARI2 18.000 MJy/sr nuInu=cste
AKARI AKARI3 65.000 MJy/sr nuInu=cste
AKARI AKARI4 90.000 MJy/sr nuInu=cste
AKARI AKARI5 140.000 MJy/sr nuInu=cste
AKARI AKARI6 160.000 MJy/sr nuInu=cste
\========= MIPS ====================================================================================================
\resolution taken to be 6,18,40" (eg Meixner et al)
MIPS MIPS1 23.6800 MJy/sr MIPS 0.00166667
MIPS MIPS2 71.4200 MJy/sr MIPS 0.00500000
MIPS MIPS3 155.900 MJy/sr MIPS 0.0111111
\========= SPIRE ====================================================================================================
\Spire resolution below correspond to 18.1,25.2,36.9" (Matt Griffin SDP2009 slides)
SPIRE SPIRE1 250.000 MJy/sr nuInu=cste 0.00502778
SPIRE SPIRE2 350.000 MJy/sr nuInu=cste 0.00700000
SPIRE SPIRE3 500.000 MJy/sr nuInu=cste 0.0102500
\========= PACS ====================================================================================================
\PACS resolution taken to be 5,8,13" (P. Andre .pdf). Must confirm
\PACS PACS1 75.000 MJy/sr nuInu=cste 0.00138889
\PACS PACS2 110.000 MJy/sr nuInu=cste 0.00222222
\PACS PACS3 170.000 MJy/sr nuInu=cste 0.00361111
\Wavelengths and flux conventions from Marc Sauvage email on Oct 16 2009
\resolution 9.01, 9.84, 13.645" from ScanReleaseNote
\Caution, this is cross-scan + in-scan average in // mode (dirty)
PACS PACS1 70.000 MJy/sr nuInu=cste 0.00250278
PACS PACS2 100.000 MJy/sr nuInu=cste 0.00273333
PACS PACS3 160.000 MJy/sr nuInu=cste 0.00379028
\========= WMAP ====================================================================================================
\K must be checked.
\resolution from lambda: 0.88 0.66 0.51 0.35 0.22
\sigabs 1% Dixit GL but ...
\sigabs 0.1% Dixit Bennett et al 2003
\sig-hit as computed in psd_wmap_data.pro in MJy/sr from Tab 1 of Bennett 2003 :
\W: 1.7616037
\V: 0.35912723
\Q: 0.11226172
\Ka: 0.049682426
\K: 0.022302618
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
WMAP WMAP1 3200. MJy/sr CMB 0.22 1.762 0.1
WMAP WMAP2 4900. MJy/sr CMB 0.35 0.359 0.1
WMAP WMAP3 7300. MJy/sr CMB 0.51 0.112 0.1
WMAP WMAP4 9100. MJy/sr CMB 0.66 0.049 0.1
WMAP WMAP5 13000. MJy/sr CMB 0.88 0.022 0.1
\========= MSX ====================================================================================================
\wfilt=[8.28,12.13,14.65,21.34]
\Everything should be checked.
MSX MSX1 8.28 MJy/sr nuInu=cste 0.005083
MSX MSX2 12.13 MJy/sr nuInu=cste 0.005083
MSX MSX3 14.65 MJy/sr nuInu=cste 0.005083
MSX MSX4 21.34 MJy/sr nuInu=cste 0.005083
\========= BOLOCAM ====================================================================================================
\wfilt=[1105.4]
\Everything should be checked.
BOLOCAM BOLOCAM1 1105.4 MJy/sr nuInu=cste 0
\========= DIRBE =======================================================================================================
\wfilt_dirbe=[1.25,2.2,3.5,4.9,12,25.,60.,100.,140,240]
\dirbe_abs_errs=[3.1,3.1,3.1,3.0,5.1,15.1,10.4,13.5,10.6,11.6] ;in %, from Hauser et al 98 ApJ 508, 25 tab 2
\nuInu=[2.4,1.6,0.9,0.8,0.9,0.9,0.9,0.5,32.8,10.7] ;1-sig nuInu in nW/m2/sr from Hauser et al 98 ApJ 508, 25 tab 2
\above are in 0.7°*0.7°
\gives in MJy/sr in 1° beam:
\0.0007, 0.089, 0.00046, 0.00065, 0.001, 0.0025, 0.0052, 0.007, 0.766, 0.35 (see dustem_dirbe_errors.pro)
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
DIRBE DIRBE1 1.25 MJy/sr nuInu=cste 1. 0.0007 3.1
DIRBE DIRBE2 2.2 MJy/sr nuInu=cste 1. 0.089 3.1
DIRBE DIRBE3 3.5 MJy/sr nuInu=cste 1. 0.00046 3.1
DIRBE DIRBE4 4.9 MJy/sr nuInu=cste 1. 0.00065 3.0
DIRBE DIRBE5 12. MJy/sr nuInu=cste 1. 0.001 5.1
DIRBE DIRBE6 25. MJy/sr nuInu=cste 1. 0.0025 15.1
DIRBE DIRBE7 60. MJy/sr nuInu=cste 1. 0.0052 10.4
DIRBE DIRBE8 100. MJy/sr nuInu=cste 1. 0.007 13.5
DIRBE DIRBE9 140. MJy/sr nuInu=cste 1. 0.766 10.6
DIRBE DIRBE10 240. MJy/sr nuInu=cste 1. 0.35 11.6
\========= DIRBE ====================================================================================================
\nu_archeops=[143.,217.,353.,545.] ;GHz
\resolution must be checked
ARCHEOPS ARCHEOPS1 550.07791 K CMB 0.
ARCHEOPS ARCHEOPS2 849.27042 K CMB 0.
ARCHEOPS ARCHEOPS3 1381.5321 K CMB 0.
ARCHEOPS ARCHEOPS4 2096.4508 K CMB 0.
\========= HFI ====================================================================================================
\nu_hfi=[100.,143.,217.,353.,545.,857.] ;GHz
\ 3000.00 2097.90 1382.49 849.858 550.459 350.058
\Must check if freq is the reference
\resolution res=[4.25,4.7,4.8,4.7,7.0,9.6] ;median value Taken from Ma et al.
\ 0.0708333 0.0783333 0.0800000 0.0783333 0.116667 0.160000
\From F. Bouchet email for DR2 release
\ Freq: 100 143 217 353 545 857 GHz
\ FWHM: 9.94 7.04 4.66 4.41 4.47 4.23 arcmin
\leads to: 0.165667 0.117333 0.0776667 0.0735000 0.0745000 0.0705000
\ FWHM from latest table by FRB (email Oct 18 2010)
\ FWHM: 9.53 7.08 4.71 4.5 4.68 4.41 arcmin
\leads to:
\ 0.158833 0.118000 0.0785000 0.0750000 0.0780000 0.0735000
\sig-hit in practice taken from internal noise in PSD
\values below from FRB table:
\in muK for 1 sq deg: 1.8 0.9 1.3 4.7 70 4.E3
\lead to:0.121905 0.0523205 0.0180480 0.00796892 0.00281441 0.00274250 (see dustem_hfi_errors)
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
\HFI HFI1 349.81617 MJy/sr nuInu=cste 0.0735000 0.1219 7.
\HFI HFI2 550.07791 MJy/sr nuInu=cste 0.0780000 0.118 7.
\HFI HFI3 849.27042 MJy/sr nuInu=cste 0.0750000 0.0785 2.
\HFI HFI4 1381.5321 MJy/sr nuInu=cste 0.0785000 0.075 2.
\HFI HFI5 2096.4508 MJy/sr nuInu=cste 0.118000 0.075 2.
\HFI HFI6 2997.9246 MJy/sr nuInu=cste 0.158833 0.0735 2.
\The following flux conventions are used to compute cc using official routine.
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
HFI HFI1 349.81617 MJy/sr HFI 0.0735000 0.1219 7.
HFI HFI2 550.07791 MJy/sr HFI 0.0780000 0.118 7.
HFI HFI3 849.27042 MJy/sr HFI 0.0750000 0.0785 2.
HFI HFI4 1381.5321 MJy/sr HFI 0.0785000 0.075 2.
HFI HFI5 2096.4508 MJy/sr HFI 0.118000 0.075 2.
HFI HFI6 2997.9246 MJy/sr HFI 0.158833 0.0735 2.
\========= LFI ====================================================================================================
\nu_lfi=[30.,44.,70.] ;GHz
\fwhm from Clive's email of Oct 18 2010: 13.01, 27.92, 32.65
\leading to: 0.216833 0.465333 0.544167
\Units TBC
LFI LFI1 4285.71 MJy/sr nuInu=cste 0.216833 5.
LFI LFI2 6818.18 MJy/sr nuInu=cste 0.465333 5.
LFI LFI3 10000.0 MJy/sr nuInu=cste 0.544167 5.
\========= SPM ====================================================================================================
\wfilt_spm=[200,260,360.,580]
\resolutions: 2,2,2.5,3.5'
\Everything should be checked.
SPM SPM1 200.00 MJy/sr nuInu=cste 0.0333333
SPM SPM2 260.00 MJy/sr nuInu=cste 0.0333333
SPM SPM3 360.00 MJy/sr nuInu=cste 0.0416667
SPM SPM4 580.00 MJy/sr nuInu=cste 0.0583333
\========= ISOCAM =====================================================================================================
\reso_orig values arbitrary
\sighit values arbitrary
\sigabs values arbitrary
\|INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |NAME |Filename |
ISOCAM ISOCAM1 2.78000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW4 ISOCAM_SW4_transmission.xcat
ISOCAM ISOCAM2 3.05000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW7 ISOCAM_SW7_transmission.xcat
ISOCAM ISOCAM3 3.30000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW2 ISOCAM_SW2_transmission.xcat
ISOCAM ISOCAM4 3.58000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW1 ISOCAM_SW1_transmission.xcat
ISOCAM ISOCAM5 3.72000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW6 ISOCAM_SW6_transmission.xcat
ISOCAM ISOCAM6 3.88000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW9 ISOCAM_SW9_transmission.xcat
ISOCAM ISOCAM7 4.06000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW8 ISOCAM_SW8_transmission.xcat
ISOCAM ISOCAM8 4.25000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW5 ISOCAM_SW5_transmission.xcat
ISOCAM ISOCAM9 4.26000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW11 ISOCAM_SW11_transmission.xcat
ISOCAM ISOCAM10 4.50000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW3 ISOCAM_SW3_transmission.xcat
ISOCAM ISOCAM11 4.50000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW1 ISOCAM_LW1_transmission.xcat
ISOCAM ISOCAM12 4.70000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 SW4 ISOCAM_SW4_transmission.xcat
ISOCAM ISOCAM13 6.00000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW4 ISOCAM_LW4_transmission.xcat
ISOCAM ISOCAM14 6.75000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW5 ISOCAM_LW5_transmission.xcat
ISOCAM ISOCAM15 6.75000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW2 ISOCAM_LW2_transmission.xcat
ISOCAM ISOCAM16 7.75000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW6 ISOCAM_LW6_transmission.xcat
ISOCAM ISOCAM17 9.63000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW7 ISOCAM_LW7_transmission.xcat
ISOCAM ISOCAM18 11.40000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW8 ISOCAM_LW8_transmission.xcat
ISOCAM ISOCAM19 11.50000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW10 ISOCAM_LW10_transmission.xcat
ISOCAM ISOCAM20 15.00000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW3 ISOCAM_LW3_transmission.xcat
ISOCAM ISOCAM21 15.00000 MJy/sr nuInu=cste 0.0633333 0.04 5.1 LW9 ISOCAM_LW9_transmission.xcat
\========= ISOPHOT ====================================================================================================
\reso_orig values arbitrary
\sighit values arbitrary
\sigabs values arbitrary
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
ISOPHOT ISOPHOTP1 3.30000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP2 3.60000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP3 4.80000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP4 7.30000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP5 7.70000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP6 10.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP7 11.3000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP8 12.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP9 12.8000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP10 15.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP11 20.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP12 25.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP13 60.0000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTP14 100.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
\
ISOPHOT ISOPHOTC1 65.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC2 60.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC3 80.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC4 90.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC5 100.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC6 105.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC7 120.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC8 150.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC9 170.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC10 180.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
ISOPHOT ISOPHOTC11 200.000 MJy/sr nuInu=cste 0.0633333 0.04 5.1
\=== Non-photometric data======================================================================
\INSTRU |FILTER |WAVE |BUNIT |FLUX_CONV |reso_orig |sighit |sigabs |
PARKES PARKES1 -32768. Kkm/s NULL 0.0166667
AVDO AVDO1 0.55 mag NULL 0.0433333
XMM XMM1 -32768. cts/s NULL 0.000555
\HI LAB data: 1.7 Kkm/s taken from Bernard Planck early paper. Absolute accuracy 10% assumed.
HI_CENT_II HI_II -32768. Kkm/s NULL 0.6 1.7 10.
LABII LABII1 -32768. Kkm/s NULL 0.6 1.7 10.
\CO data
\NANTEN sig-hit of 1.2 Kkm/s has to be checked. Maybe 3-sig. Varies on sky. 10% absolute assumed
\DHT2001: 1.2 Kkm/s assumed. 24% is from intercalib with NANTEN
NANTEN NANTEN1 -32768. Kkm/s NULL 0.0433333 1.2 10.
DHT DHT1 -32768. Kkm/s NULL 0.146667 1.2 24.
CO12_COMB NANTEN1 -32768. Kkm/s NULL 0.0666667 1.2 10.
CO12_COMBNVNANTEN1 -32768. Kkm/s NULL 0.0666667 1.2 10.
\resolution 6': http://astrometry.fas.harvard.edu/skymaps/halpha/processing.html
WHAM HALPHA -32768. R NULL 0.1 1. 10.
\8.6 GHz sighit corresponds to 0.5 Jy/beam for Nside=4096
ATCAPRAD ATCAPRAD1 34859.587 MJy/sr ? 0.00972222 16.56 2.
\4.8 GHz sighit corresponds to 0.5 Jy/beam for Nside=4096
ATCAPRAD ATCAPRAD2 62456.760 MJy/sr ? 0.00611111 10.4 2.
\========= WISE ================================================================================
\wfilt=[3.4,4.6,12.,22.]
\ filters from http://wise2.ipac.caltech.edu/docs/release/prelim/expsup/sec4_3g.html#WISEZMA
WISE WISE1 3.40000 MJy/sr nuInu=cste 0.0016944
WISE WISE2 4.60000 MJy/sr nuInu=cste 0.0017778
WISE WISE3 12.0000 MJy/sr nuInu=cste 0.0018055
WISE WISE4 22.0000 MJy/sr nuInu=cste 0.0033333
\========= LABOCA ================================================================================
LABOCA LABOCA1 869.570 MJy/sr LABOCA 0.0053333
\========= GISMO ================================================================================
GISMO GISMO1 2000.00 MJy/sr nuInu=cste 0.0046389
\========= BOLOCAM ================================================================================
\wfilt=[1105.4]
\Everything should be checked.
BOLOCAM BOLOCAM1 1105.4 MJy/sr nuInu=cste 0
\================ ================================================================================
\This last dummy filter needs to be included to cope for spectrum data
UNKNOWN SPECTRUM -32768. MJy/sr NONE 0