J/ApJS/237/12 The Hubble Deep UV Legacy Survey (HDUV) (Oesch+, 2018)
HDUV: the Hubble Deep UV Legacy Survey.
Oesch P.A., Montes M., Reddy N., Bouwens R.J., Illingworth G.D., Magee D.,
Atek H., Carollo C.M., Cibinel A., Franx M., Holden B., Labbe I.,
Nelson E.J., Steidel C.C., Van Dokkum P.G., Morselli L., Naidu R.P.,
Wilkins S.
<Astrophys. J. Suppl. Ser., 237, 12-12 (2018)>
=2018ApJS..237...12O 2018ApJS..237...12O (SIMBAD/NED BibCode)
ADC_Keywords: Photometry, HST; Ultraviolet; Redshifts; Galaxies;
Optical; Photometry, infrared
Keywords: cosmology: observations; galaxies: abundances; galaxies: evolution
techniques: image processing
Abstract:
We present the Hubble Deep UV Legacy Survey (HDUV), a 132-orbit
imaging program with the WFC3/UVIS camera on board the Hubble Space
Telescope (HST). The HDUV extends and builds on the few previous UV
imaging surveys in the two GOODS/CANDELS-Deep fields to provide deep
images over a total area of ∼100arcmin2 in the two filters F275W and
F336W. Our release also includes all the F275W imaging data taken by
the CANDELS survey, which were aligned using a novel approach and
combined with the HDUV survey data. By reaching depths of 27.5-28.0mag
(5σ in 0.4" apertures), these are the deepest high-resolution UV
data over such a large area taken to date. Such unique UV imaging
enables a wide range of science by the community. A few of the main
goals of the HDUV survey are as follows: (1) to provide a complete
sample of faint star-forming galaxies at z∼1-3; (2) to constrain the
ionizing photon escape fraction from galaxies at z∼2-3; and (3) to
track the build-up of bulges and the disappearance of clumpy disk
galaxies through reliable internal stellar population properties at
sub-kiloparsec resolution out to z∼3. The addition of the HDUV data
further enhances the legacy value of the two GOODS/CANDELS-Deep
fields, which now include deep 11-band HST imaging, as well as very
deep ancillary data from X-ray to radio, enabling unique
multi-wavelength studies. Here, we provide an overview of the survey
design, describe the data reduction, and highlight a few basic
analyses of the images that are available to the community as
high-level science products, via the Mikulski Archive for Space
Telescopes.
Description:
The primary observations of the Hubble Deep UV Legacy Survey (HDUV)
survey include 10-orbit deep F275W and 8-orbit deep F336W filter
images over a total of 13 WFC3/UVIS pointings split over the central
parts of GOODS-N and S for a total coverage of ∼100arcmin2.
The 132 orbits of HDUV data were obtained in 42 independent visits
between 2014-November-25 and 2015-November-16. In GOODS-S, these
visits were composed of 4 or 5 full-orbit exposures in either F275W or
F336W. The exposure time of these images was ∼2600-2800s. In GOODS-N,
all visits made use of the continuous viewing zone (CVZ). Thus to
reach an equivalent 4-orbit exposure, only 2 actual orbits were
required for each filter (at the expense of an increased background
during the bright part of the orbit).
When combined with previous UV imaging from the UVUDF (WFC3/UVIS over
the Hubble Ultra-Deep Field; GO12534, PI: Teplitz;
Teplitz+ 2013AJ....146..159T 2013AJ....146..159T & Rafelski+ 2015, J/AJ/150/31) survey and
from the CANDELS program (see Grogin+ 2011ApJS..197...35G 2011ApJS..197...35G &
Koekemoer+ 2011ApJS..197...36K 2011ApJS..197...36K), this results in coverage of
100arcmin2 to a depth of >27.5mag at high spatial resolution (<0.1").
File Summary:
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FileName Lrecl Records Explanations
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ReadMe 80 . This file
goodsn.dat 773 15798 *GOODS-N photometric redshifts and physical
parameters (HDUV DR1.0 -- GN v0.5)
goodss.dat 1166 14763 *GOODS-S photometric redshifts and physical
parameters (HDUV DR1.0 -- GS v0.5)
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Note on goodsn.dat and goodss.dat: This catalogue includes all the photometry
from the 3D-HST + the HDUV. The UV photometry is measured consistently
with the photometry in the 3D-HST catalog(s). The 0.7" diameter
aperture fluxes are corrected to their total values by the ratio of
the total F160W flux divided by the flux in an aperture of 0.7" in
F160W (ff160W/faperF160W) (Skelton+ 2014, J/ApJS/214/24). The 3D-HST
detection image is also used for this catalog such that the IDs and
source positions match.
The conversion to AB magnitudes is mAB=-2.5*log10(flux)+25
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See also:
J/AJ/120/2747 : HDF-South WFPC2 observations (Casertano+, 2000)
J/AJ/127/180 : The Hawaii Hubble Deep Field North (Capak+, 2004)
J/AJ/132/2014 : NUV sources in CDF-S and HDF-N GOODS fields (De Mello+, 2006)
J/A+A/545/A141 : UV selected sources in the GOODS-S field (Buat+, 2012)
J/ApJS/207/24 : GOODS-S CANDELS multiwavelength catalog (Guo+, 2013)
J/ApJS/214/24 : 3D-HST+CANDELS catalog (Skelton+, 2014)
J/ApJ/793/101 : CANDELS z∼2 galaxy properties (Trump+, 2014)
J/ApJ/796/60 : ECDFS galaxies phot. redshifts & counterparts (Hsu+, 2014)
J/ApJ/801/97 : GOODS-S & UDS stellar mass cat. from CANDELS (Santini+, 2015)
J/ApJ/803/34 : z∼4-10 galaxies from HST legacy fields (Bouwens+, 2015)
J/ApJS/221/11 : CANDELS visual classifications for GOODS-S (Kartaltepe+, 2015)
J/AJ/150/31 : Phot. and redshifts of galaxies in the UDF (Rafelski+, 2015)
J/ApJ/810/71 : UV mag of candidate galaxies at 3~<z~<8.5 (Finkelstein+, 2015)
J/ApJS/225/27 : 3D-HST Survey: grism spectra master catalog (Momcheva+, 2016)
J/ApJ/823/95 : CANDELS GOODS-S Chandra counterparts (Cappelluti+, 2016)
J/ApJ/835/153 : Galaxy environment in 3D-HST fields (z=0.5-3) (Fossati+, 2017)
J/ApJ/854/29 : High-EW [OIII] & Hα emitters from 3D-HST (Maseda+, 2018)
J/ApJS/243/22 : CANDELS/SHARDS multiwavelength cat. in GOODS-N (Barro+, 2019)
J/ApJS/244/16 : HLF photometric catalog in GOODS-S v2.0 (Whitaker+, 2019)
J/ApJ/905/170 : Mass-based structural param. for 3D-HST gal. (Mosleh+, 2020)
http://archive.stsci.edu/prepds/hduv/ : HDUV Data Release 1.0 home page
Byte-by-byte Description of file: goodsn.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID [3138/35183] Identifier from
Skelton+ 2014, J/ApJS/214/24
(<[SWM2014] GOODS-N NNNNN> in Simbad)
7- 16 F10.6 deg RAdeg [189/189.42] Right ascension (J2000)
18- 26 F9.6 deg DEdeg [62.14/62.33] Declination (J2000)
28- 35 E8.5 0.3631uJy F275W [-0.42/93]?=-99 Total flux in HST WFC3/UVIS
F275W zeropoint 25 (f_F275W)
37- 45 F9.5 0.3631uJy e_F275W [0.01/0.7]?=-99 F275W uncertainty
47- 55 E9.5 0.3631uJy F336W [-0.3/124]?=-99 Total flux in HST WFC3/UVIS
F336W zeropoint 25 (f_F336W)
57- 65 F9.5 0.3631uJy e_F336W [0.01/0.7]?=-99 F336W uncertainty
67- 76 E10.6 0.3631uJy FU [-1/767]?=-99 Total flux in U zeropoint 25
(f_U)
78- 87 F10.6 0.3631uJy e_FU [-3.4/64]?=-99 FU uncertainty
89- 98 E10.6 0.3631uJy F435W [-0.3/947]?=-99 Total flux in ACS F435W
zeropoint 25 (f_F435W)
100- 109 F10.6 0.3631uJy e_F435W [0.001/0.5]?=-99 F435W uncertainty
111- 120 E10.6 0.3631uJy FB [-0.3/308]?=-99 Total flux in B zeropoint 25
(f_B)
122- 130 E9.6 0.3631uJy e_FB [-0.2/0.7]?=-99 FB uncertainty
132- 141 E10.6 0.3631uJy FG [-5.2/342]?=-99 Total flux in G zeropoint 25
(f_G)
143- 152 F10.6 0.3631uJy e_FG [-1.4/8]?=-99 FG uncertainty
154- 163 E10.6 0.3631uJy FV [-1.6/568]?=-99 Total flux in V zeropoint 25
(f_V)
165- 173 E9.6 0.3631uJy e_FV [-0.2/0.8]?=-99 FV uncertainty
175- 185 E11.6 0.3631uJy F606W [-0.1/1456]?=-99 Total flux in F606W GOODS
zeropoint 25 (f_F606W)
187- 196 F10.6 0.3631uJy e_F606W [0.0008/0.3]?=-99 F606W uncertainty
198- 207 E10.6 0.3631uJy FR [-6/679]?=-99 Total flux in R zeropoint 25
(f_R)
209- 218 F10.6 0.3631uJy e_FR [-3.5/68]?=-99 FR uncertainty
220- 229 E10.6 0.3631uJy FRc [-59/771]?=-99 Total flux in Rc zeropoint 25
(f_Rs)
231- 240 F10.6 0.3631uJy e_FRc [-2.3/14]?=-99 FRc uncertainty
242- 252 E11.6 0.3631uJy FI [-1.6/1182]?=-99 Total flux in I
zeropoint 25 (f_I)
254- 263 F10.6 0.3631uJy e_FI [-0.5/1.6]?=-99 FI uncertainty
265- 275 E11.6 0.3631uJy F775W [-0.5/2609]?=-99 Total flux in F775W GOODS
zeropoint 25 (f_F775W)
277- 286 F10.6 0.3631uJy e_F775W [0.001/0.5]?=-99 F775W uncertainty
288- 298 E11.6 0.3631uJy FZ [-4.4/3375]?=-99 Total flux in Z
zeropoint 25 (f_Z)
300- 309 F10.6 0.3631uJy e_FZ [-0.6/2.2]?=-99 FZ uncertainty
311- 321 F11.6 0.3631uJy F850LP [-0.3/5483]?=-99 Total flux in F850LP GOODS
zeropoint 25 (f_F850LP)
323- 332 F10.6 0.3631uJy e_F850LP [0.001/0.6]?=-99 F850LP uncertainty
334- 345 F12.6 0.3631uJy F125W [-0.05/26086]?=-99 Total flux in F125W
zeropoint 25 (f_F125W)
347- 356 F10.6 0.3631uJy e_F125W [0.001/0.6]?=-99 F125W uncertainty
358- 368 E11.6 0.3631uJy FJ [-7/6790]?=-99 Total flux in J zeropoint 25
(f_J)
370- 379 F10.6 0.3631uJy e_FJ [-0.8/5]?=-99 FJ uncertainty
381- 391 E11.6 0.3631uJy F140W [-0.4/21578]?=-99 Total flux in F140W
zeropoint 25 (f_F140W)
393- 403 F11.6 0.3631uJy e_F140W [0.003/1187]?=-99 F140W uncertainty
405- 415 E11.6 0.3631uJy FH [-13/6521]?=-99 Total flux in H zeropoint 25
(f_H)
417- 426 F10.6 0.3631uJy e_FH [-1/11]?=-99 FH uncertainty
428- 439 F12.6 0.3631uJy F160W [0.0007/29475]?=-99 Total flux in F160W
zeropoint 25 (f_F160W)
441- 450 F10.6 0.3631uJy e_F160W [0.03/1.4]?=-99 F160W uncertainty
452- 462 E11.6 0.3631uJy FKs [-2.6/9414]?=-99 Total flux in Ks
zeropoint 25 (f_Ks)
464- 473 F10.6 0.3631uJy e_FKs [-0.4/5.2]?=-99 FKs uncertainty
475- 485 E11.6 0.3631uJy FIRAC1 [-788/7150]?=-99 Total flux in IRAC1 (3.6um)
zeropoint 25 (f_IRAC1)
487- 497 F11.6 0.3631uJy e_FIRAC1 [-940/90]?=-99 FIRAC1 uncertainty
499- 509 E11.6 0.3631uJy FIRAC2 [-612/3414]?=-99 Total flux in IRAC2 (4.5um)
zeropoint 25 (f_IRAC2)
511- 521 F11.6 0.3631uJy e_FIRAC2 [-580/92]?=-99 FIRAC2 uncertainty
523- 533 F11.6 0.3631uJy FIRAC3 [-632/4099]?=-99 Total flux in IRAC3 (5.8um)
zeropoint 25 (f_IRAC3)
535- 549 F15.6 0.3631uJy e_FIRAC3 [-316/2.5e+07]?=-99 FIRAC3 uncertainty
551- 561 E11.6 0.3631uJy FIRAC4 [-933/16780]?=-99 Total flux in IRAC4 (8um)
zeropoint 25 (f_IRAC4)
563- 575 F13.6 0.3631uJy e_FIRAC4 [-29/165743]?=-99 FIRAC4 uncertainty
577 I1 --- Use [0/1] Use flag: 1=USE, 0=DON'T USE
(see Skelton+ 2014, J/ApJS/214/24
for definition) (use_phot)
579- 582 F4.2 --- S/G [0/1] Sextractor stellarity-index
(class_star)
584- 590 F7.4 --- zspec [0/5.34]?=-1 Spectroscopic redshift from
Skelton+ 2014, J/ApJS/214/24 (z_spec)
592- 598 F7.3 --- Ratio [0.06/20.83] Correction from aperture to
total flux based on F160W
(ratiofluxto_total)
600- 611 F12.9 --- zbest [0.01/5.9]?=-1 Best Available Redshift
(used for FAST parameter fitting),
corresponds to zspec if available, zpeak
otherwise (z_best)
613- 619 F7.3 --- zpeak [0.01/5.9]?=-99 Photometric redshift at
peak probability distribution (EAZY)
(z_peak)
621- 627 F7.3 --- Pzpk [0/865]?=-99 Value of peak probability
(EAZY) (zpeakprob)
629- 635 F7.3 --- za [0.01/5.97]?=-99 Redshift where chi2 is
minimized for all template linear
combination modes before applying prior
(EAZY) (z_a)
637- 643 F7.3 --- b_za [0.01/5.92]?=-99 za lower limit
645- 651 F7.3 --- B_za [0.01/5.96]?=-99 za upper limit
653- 656 F4.1 [yr] logtau [7/10]?=-1 SFR∼exp (-t/tau) (FAST) (ltau)
658- 662 F5.2 [yr] b_logtau [7/10]?=-1 Ltau lower limit
664- 668 F5.2 [yr] B_logtau [7/10]?=-1 Ltau upper limit
670- 673 F4.1 [yr] logAge [7.6/10.1]?=-1 Log of age (FAST) (lage)
675- 679 F5.2 [yr] b_logAge [7.6/10.1]?=-1 logAge lower limit
681- 685 F5.2 [yr] B_logAge [7.6/10.1]?=-1 logAge upper limit
687- 690 F4.1 mag Av [0/4]?=-1 Dust attenuation in the V-band,
FAST
692- 696 F5.2 mag b_Av [0/4]?=-1 Av lower limit
698- 702 F5.2 mag B_Av [0/4]?=-1 Av upper limit
704- 709 F6.2 [Msun] logM [1.9/12]?=-1 Log of stellar mass (FAST)
(lmass)
711- 716 F6.2 [Msun] b_logM [1.9/12]?=-1 logM lower limit
718- 723 F6.2 [Msun] B_logM [1.9/12]?=-1 logM upper limit
725- 730 F6.2 [Msun/yr] logSFR [-36/3]?=-99 Log of stellar formation rate
(FAST) (lsfr)
732- 737 F6.2 [Msun/yr] b_logSFR [-36/2.78]?=-99 logSFR lower limit
739- 744 F6.2 [Msun/yr] B_logSFR [-36/3.32]?=-99 logSFR upper limit
746- 751 F6.2 [yr] lsSFR [-43/-1]?=-99 Log of specific SFR, FAST
753- 758 F6.2 [yr] b_lsSFR [-43/-1]?=-99 lsSFR lower limit
760- 765 F6.2 [yr] B_lsSFR [-43/-1]?=-99 lsSFR upper limit
767- 773 F7.3 --- Chi2 [0.1/276]?=-1 Chi-square of fit (FAST)
(fast_chi2)
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Byte-by-byte Description of file: goodss.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 I5 --- ID [6125/36103] Unique 3D-HST identifier
within GOODS-S
(<[SWM2014] GOODS-S NNNNN> in Simbad)
7- 15 F9.6 deg RAdeg [53/53.3] Right Ascension (J2000) (RA)
17- 26 F10.6 deg DEdeg [-28/-27.7] Declination (J2000) (DEC)
28- 36 E9.5 0.3631uJy F275W [-1.9/659]?=-99 Total flux in HST
WFC3/UVIS F275W zeropoint 25 (f_F275W)
38- 46 F9.5 0.3631uJy e_F275W [0.007/4.1]?=-99 1 sigma error in Total
flux in F275W
48- 55 E8.5 0.3631uJy F336W [-1.7/67.6]?=-99 Total flux in HST
WFC3/UVIS F336W zeropoint 25 (f_F336W)
57- 65 F9.5 0.3631uJy e_F336W [0.005/4]?=-99 1 sigma error in Total
flux in F336W
67- 77 E11.6 0.3631uJy FU38 [-293/6473]?=-99 Total flux in U38
zeropoint 25 (f_U38)
79- 87 E9.6 0.3631uJy e_FU38 [-5/54]?=-99 1 sigma error in U38 total
flux zeropoint 25 (e_U38)
89- 99 E11.6 0.3631uJy FU [-1.5/1128]?=-99 Total flux in U
zeropoint 25 (f_U)
101- 109 E9.6 0.3631uJy e_FU [-0.6/7]?=-99 1 sigma error in U total
flux zeropoint 25 (e_U)
111- 121 E11.6 0.3631uJy F435W [-0.3/1889]?=-99 Total flux in HST/ACS
F435W zeropoint 25 (f_F435W)
123- 132 F10.6 0.3631uJy e_F435W [0.006/1.2]?=-99 1 sigma error in ACS
F435W total flux zeropoint 25
134- 144 F11.6 0.3631uJy FB [-5/1370]?=-99 Total flux in B
zeropoint 25 (f_B)
146- 154 E9.6 0.3631uJy e_FB [-1.6/18]?=-99 1 sigma error in B total
flux zeropoint 25 (e_B)
156- 166 E11.6 0.3631uJy FV [-27/1529]?=-99 Total flux in V
zeropoint 25 (f_V)
168- 176 E9.6 0.3631uJy e_FV [-1.8/20]?=-99 1 sigma error in V total
flux zeropoint 25 (e_V)
178- 187 E10.6 0.3631uJy F606Wc [-0.2/606]?=-99 Total flux in F606W
CANDELS zeropoint 25 (f_F606Wcand)
189- 198 F10.6 0.3631uJy e_F606Wc [0.006/0.9]?=-99 1 sigma error in F606W
CANDELS total flux zeropoint 25
(e_F606Wcand)
200- 210 E11.6 0.3631uJy F606W [-0.5/3481]?=-99 Total flux in F606W
GOODS zeropoint 25 (f_F606W)
212- 221 F10.6 0.3631uJy e_F606W [0.005/1]?=-99 1 sigma error in F606W
GOODS total flux zeropoint 25
223- 232 E10.6 0.3631uJy FR [-1.4/906]?=-99 Total flux in R
zeropoint 25 (f_R)
234- 242 E9.6 0.3631uJy e_FR [-1/8.1]?=-99 1 sigma error in R total
flux zeropoint 25 (e_R)
244- 254 F11.6 0.3631uJy FRc [-242/1870]?=-99 Total flux in Rc
zeropoint 25 (f_Rc)
256- 264 E9.6 0.3631uJy e_FRc [-2/20]?=-99 1 sigma error in Rc total
flux zeropoint 25 (e_Rc)
266- 275 E10.6 0.3631uJy F775W [-0.2/4272]?=-99 Total flux in F775W
GOODS zeropoint 25 (f_F775W)
277- 286 F10.6 0.3631uJy e_F775W [0.008/1.7]?=-99 1 sigma error in F775W
GOODS total flux zeropoint 25
288- 299 F12.6 0.3631uJy FI [-26/21203]?=-99 Total flux in I
zeropoint 25 (f_I)
301- 310 F10.6 0.3631uJy e_FI [-13/122]?=-99 1 sigma error in I total
flux zeropoint 25 (e_I)
312- 322 F11.6 0.3631uJy F814Wc [-0.2/1872]?=-99 Total flux in F814W
CANDELS zeropoint 25 (f_F814Wcand)
324- 333 F10.6 0.3631uJy e_F814Wc [0.004/0.9]?=-99 1 sigma error in F814W
CANDELS total flux zeropoint 25
(e_F814Wcand)
335- 345 F11.6 0.3631uJy F850LP [-0.3/7652]?=-99 Total flux in F850LP
GOODS zeropoint 25 (f_F850LP)
347- 356 F10.6 0.3631uJy e_F850LP [0.01/2.3]?=-99 1 sigma error in F850LP
GOODS total flux zeropoint 25
358- 368 E11.6 0.3631uJy F850LPc [-17/2623]?=-99 Total flux in F850LP
CANDELS zeropoint 25 (f_F850LPcand)
370- 379 F10.6 0.3631uJy e_F850LPc [0.02/6.1]?=-99 1 sigma error in F850LP
CANDELS total flux zeropoint 25
(e_F850LPcand)
381- 392 F12.6 0.3631uJy F125W [-0.02/29271]?=-99 Total flux in F125W
zeropoint 25 (f_F125W)
394- 403 F10.6 0.3631uJy e_F125W [0.01/3.1]?=-99 1 sigma error in F125W
total flux zeropoint 25
405- 415 E11.6 0.3631uJy FJ [-19/17424]?=-99 Total flux in J
zeropoint 25 (f_J)
417- 426 E10.6 0.3631uJy e_FJ [-15/24]?=-99 1 sigma error in J total
flux zeropoint 25 (e_J)
428- 438 F11.6 0.3631uJy FJt [-2.2/5112]?=-99 Total flux in TENIS J
zeropoint 25 (f_tenisJ)
440- 449 E10.6 0.3631uJy e_FJt [-18/28]?=-99 1 sigma error in TENIS J
total flux zeropoint 25 (e_tenisJ)
451- 461 E11.6 0.3631uJy F140W [-0.7/26453]?=-99 Total flux in F140W
zeropoint 25 (f_F140W)
463- 472 F10.6 0.3631uJy e_F140W [0.02/669]?=-99 1 sigma error in F140W
474- 485 F12.6 0.3631uJy F160W [0.0001/27843]?=-99 Total flux in F160W
zeropoint 25 (f_F160W)
487- 496 F10.6 0.3631uJy e_F160W [0.02/2.6]?=-99 1 sigma error in F160W
498- 508 E11.6 0.3631uJy FH [-8/17271]?=-99 Total flux in H
zeropoint 25 (f_H)
510- 519 E10.6 0.3631uJy e_FH [-26/41]?=-99 1 sigma error in FH (e_H)
521- 532 F12.6 0.3631uJy FKt [-62/13725]?=-99 Total flux in TENIS K
zeropoint 25 (f_tenisK)
534- 543 E10.6 0.3631uJy e_FKt [-26/49]?=-99 1 sigma error in FKt
(e_tenisK)
545- 555 E11.6 0.3631uJy FKs [-34/14230]?=-99 Total flux in K
zeropoint 25 (f_Ks)
557- 566 E10.6 0.3631uJy e_FKs [-24/38]?=-99 1 sigma error in FKs (e_Ks)
568- 578 F11.6 0.3631uJy FIRAC1 [-90/6645]?=-99 Total flux in IRAC1
(3.6um) zeropoint 25 (f_IRAC1)
580- 590 E11.6 0.3631uJy e_FIRAC1 [-202/79]?=-99 1 sigma error in FIRAC1
(e_IRAC1)
592- 602 F11.6 0.3631uJy FIRAC2 [-167/3588]?=-99 Total flux in IRAC2
(4.5um) zeropoint 25 (f_IRAC2)
604- 614 E11.6 0.3631uJy e_FIRAC2 [-220/72]?=-99 1 sigma error in IRAC2
total flux zeropoint 25 (e_IRAC2)
616- 626 F11.6 0.3631uJy FIRAC3 [-663/3274]?=-99 Total flux in IRAC3
(5.8um) zeropoint 25 (f_IRAC3)
628- 638 F11.6 0.3631uJy e_FIRAC3 [-211/2240]?=-99 1 sigma error in IRAC3
total flux zeropoint 25 (e_IRAC3)
640- 650 F11.6 0.3631uJy FIRAC4 [-796/4235]?=-99 Total flux in IRAC4
(8.0um) zeropoint 25 (f_IRAC4)
652- 662 F11.6 0.3631uJy e_FIRAC4 [-65/2277]?=-99 1 sigma error in IRAC4
total flux zeropoint 25 (e_IRAC4)
664- 674 E11.6 0.3631uJy FIA427 [-23/2293]?=-99 Total flux in IA427
zeropoint 25 (f_IA427)
676- 685 E10.6 0.3631uJy e_FIA427 [-18/18]?=-99 1 sigma error in IA427
total flux zeropoint 25 (e_IA427)
687- 697 E11.6 0.3631uJy FIA445 [-46/1597]?=-99 Total flux in IA445
zeropoint 25 (f_IA445)
699- 708 E10.6 0.3631uJy e_FIA445 [-14/14]?=-99 1 sigma error in IA445
total flux zeropoint 25 (e_IA445)
710- 720 E11.6 0.3631uJy FIA505 [-9/1929]?=-99 Total flux in IA505
zeropoint 25 (f_IA505)
722- 730 E9.6 0.3631uJy e_FIA505 [-12/54]?=-99 1 sigma error in IA505
total flux zeropoint 25 (e_IA505)
732- 741 E10.6 0.3631uJy FIA527 [-7/1019]?=-99 Total flux in IA527
zeropoint 25 (f_IA527)
743- 751 E9.6 0.3631uJy e_FIA527 [-3/26]?=-99 1 sigma error in IA527
total flux zeropoint 25 (e_IA527)
753- 763 E11.6 0.3631uJy FIA550 [-22/1199]?=-99 Total flux in IA550
zeropoint 25 (f_IA550)
765- 773 E9.6 0.3631uJy e_FIA550 [-12/12]?=-99 1 sigma error in IA550
total flux zeropoint 25 (e_IA550)
775- 784 E10.6 0.3631uJy FIA574 [-19/2435]?=-99 Total flux in IA574
zeropoint 25 (f_IA574)
786- 794 E9.6 0.3631uJy e_FIA574 [-6/60]?=-99 1 sigma error in IA574
total flux zeropoint 25 (e_IA574)
796- 805 F10.6 0.3631uJy FIA598 [-25/671]?=-99 Total flux in IA598
zeropoint 25 (f_IA598)
807- 815 E9.6 0.3631uJy e_FIA598 [-3/24]?=-99 1 sigma error in IA598
total flux zeropoint 25 (e_IA598)
817- 826 F10.6 0.3631uJy FIA624 [-2/674]?=-99 Total flux in IA624
zeropoint 25 (f_IA624)
828- 836 E9.6 0.3631uJy e_FIA624 [-3/26]?=-99 1 sigma error in IA624
total flux zeropoint 25 (e_IA624)
838- 847 F10.6 0.3631uJy FIA651 [-4/541]?=-99 Total flux in IA651
zeropoint 25 (f_IA651)
849- 857 E9.6 0.3631uJy e_FIA651 [-2/20]?=-99 1 sigma error in IA651
total flux zeropoint 25 (e_IA651)
859- 868 F10.6 0.3631uJy FIA679 [-21/428]?=-99 Total flux in IA679
zeropoint 25 (f_IA679)
870- 878 E9.6 0.3631uJy e_FIA679 [-3/26]?=-99 1 sigma error in IA679
total flux zeropoint 25 (e_IA679)
880- 889 F10.6 0.3631uJy FIA738 [-10/646]?=-99 Total flux in IA738
zeropoint 25 (f_IA738)
891- 899 E9.6 0.3631uJy e_FIA738 [-3/30]?=-99 1 sigma error in IA738
total flux zeropoint 25 (e_IA738)
901- 911 F11.6 0.3631uJy FIA767 [-255/571]?=-99 Total flux in IA767
zeropoint 25 (f_IA767)
913- 921 E9.6 0.3631uJy e_FIA767 [-9/78]?=-99 1 sigma error in IA767
total flux zeropoint 25 (e_IA767)
923- 933 F11.6 0.3631uJy FIA797 [-104/520]?=-99 Total flux in IA797
zeropoint 25 (f_IA797)
935- 943 E9.6 0.3631uJy e_FIA797 [-9/94]?=-99 1 sigma error in IA797
total flux zeropoint 25 (e_IA797)
945- 955 F11.6 0.3631uJy FIA856 [-189/660]?=-99 Total flux in IA856
zeropoint 25 (f_IA856)
957- 966 F10.6 0.3631uJy e_FIA856 [-13/122]?=-99 1 sigma error in IA856
total flux zeropoint 25 (e_IA856)
968 I1 --- Use [0/1] Use flag: 1=USE, 0=DON'T USE; see
Skelton+ 2014, J/ApJS/214/24 for
definition (use_phot)
970- 973 F4.2 --- S/G [0/1] Sextractor stellarity-index
CLASS_STAR (class_star)
975- 983 F9.5 --- zspec [-1/4.2]?=-99.9 Spectroscopic redshift,
when available see
Skelton+ 2014, J/ApJS/214/24 for
sources (z_spec)
985- 990 F6.3 --- Ratio [0.37/68.05] Correction from aperture to
total flux based on F160W
(ratiofluxto_total)
992- 1003 F12.9 --- zbest [0.01/5.9]?=-1 Best Available Redshift
(used for FAST parameter fitting),
corresponds to z_spec if available,
z_peak otherwise (z_best)
1005- 1011 F7.3 --- zpeak [0.01/5.97]?=-99 Photometric redshift at
peak probability distribution (EAZY)
(z_peak)
1013- 1020 F8.3 --- Pzpk [0/2290]?=-99 Value of peak probability
(EAZY) (zpeakprob)
1022- 1028 F7.3 --- za [0.01/5.97]?=-99 Redshift where chi2 is
minimized for all template linear
combination modes before applying prior
(EAZY) (z_a)
1030- 1036 F7.3 --- b_za [0.01/5.93]?=-99 Lower limit of 1 sigma
confidence interval for z_a (EAZY)
(z_l68)
1038- 1044 F7.3 --- B_za [0.02/5.96]?=-99 Upper limit of 1 sigma
confidence interval for z_a (EAZY)
(z_u68)
1046- 1049 F4.1 [yr] logtau [7/10]?=-1 SFR∼exp (-t/tau) (FAST) (ltau)
1051- 1055 F5.2 [yr] b_logtau [7/10]?=-1 Lower limit of 1 sigma
confidence interval for ltau (FAST)
(l68_ltau)
1057- 1061 F5.2 [yr] B_logtau [7/10]?=-1 Upper limit of 1 sigma
confidence interval for ltau (FAST)
(u68_ltau)
1063- 1066 F4.1 [yr] logAge [7.6/10.1]?=-1 Log of age (FAST) (lage)
1068- 1072 F5.2 [yr] b_logAge [7.6/10.1]?=-1 Lower limit of 1 sigma
confidence interval for lage (FAST)
(l68_lage)
1074- 1078 F5.2 [yr] B_logAge [7.6/10.1]?=-1 Upper limit of 1 sigma
confidence interval for lage (FAST)
(u68_lage)
1080- 1083 F4.1 --- Av [0/4]?=-1 Dust attenuation in the
V-band, FAST
1085- 1089 F5.2 --- b_Av [0/3.7]?=-1 Lower limit of 1 sigma
confidence interval for Av (FAST)
(l68_Av)
1091- 1095 F5.2 --- B_Av [0/4]?=-1 Upper limit of 1 sigma
confidence interval for Av (FAST)
(u68_Av)
1097- 1102 F6.2 [Msun] logM [0.9/11.8]?=-1 Log of stellar mass (FAST)
(lmass)
1104- 1109 F6.2 [Msun] b_logM [0.2/11.7]?=-1 Lower limit of 1 sigma
confidence interval for lmass (FAST)
(l68_lmass)
1111- 1116 F6.2 [Msun] B_logM [1.8/11.8]?=-1 Upper limit of 1 sigma
confidence interval for lmass (FAST)
(u68_lmass)
1118- 1123 F6.2 [Msun/yr] logSFR [-34/2.4]?=-99 Log of star formation
rate (FAST) (lsfr)
1125- 1130 F6.2 [Msun/yr] b_logSFR [-34/2.35]?=-99 Lower limit of 1 sigma
confidence interval for lsfr (FAST)
(l68_lsfr)
1132- 1137 F6.2 [Msun/yr] B_logSFR [-36/2.83]?=-99 Upper limit of 1 sigma
confidence interval for lsfr (FAST)
(u68_lsfr)
1139- 1144 F6.2 [yr] lsSFR [-42/-1]?=-99 Log of specific SFR, FAST
1146- 1151 F6.2 [yr] b_lsSFR [-40/-1]?=-99 Lower limit of 1 sigma
confidence interval for lssfr (FAST)
(l68_lssfr)
1153- 1158 F6.2 [yr] B_lsSFR [-43/-1]?=-99 Upper limit of 1 sigma
confidence interval for lssfr (FAST)
(u68_lssfr)
1160- 1166 F7.3 --- Chi2 [0.3/144]?=-1 Chi-square of fit (FAST)
(fast_chi2)
--------------------------------------------------------------------------------
History:
Downloaded from: http://archive.stsci.edu/prepds/hduv/
(End) Emmanuelle Perret [CDS] 13-Oct-2023