J/A+A/670/A4 MUSE Hubble Ultra Deep Field surveys. DR2 (Bacon+, 2023)
The MUSE Hubble Ultra Deep Field surveys: Data release II.
Bacon R., Brinchmann J., Conseil S., Maseda M., Nanayakkara T., Wendt M.,
Bacher R., Mary D., Weilbacher P.M., Krajnovi'c D., Boogaard L., Bouche N.,
Contini T., Epinat B., Feltre A., Guo Y., Herenz C., Kollatschny W.,
Kusakabe H., Leclercq F., Michel-Dansac L., Pello R., Richard J., Roth M.,
Salvignol G., Schaye J., Steinmetz M., Tresse L., Urrutia T., Verhamme A.,
Vitte E., Wisotzki L., Zoutendijk S.L.
<Astron. Astrophys. 670, A4 (2023)>
=2023A&A...670A...4B 2023A&A...670A...4B (SIMBAD/NED BibCode)
ADC_Keywords: Galaxy catalogs ; Redshifts ; Spectroscopy
Keywords: galaxies: high-redshift - galaxies: distances and redshifts -
techniques: imaging spectroscopy - catalogs
Abstract:
We present the second data release of the MUSE Hubble Ultra-Deep Field
surveys, which includes the deepest spectroscopic survey ever
performed. The MUSE data, with their 3D content, amazing depth, wide
spectral range, and excellent spatial and medium spectral resolution,
are rich in information. Their location in the Hubble ultra-deep field
area, which benefits from an exquisite collection of ancillary
panchromatic information, is a major asset. This update of the first
release incorporates a new 141-hour adaptive-optics-assisted MUSE
eXtremely Deep Field (MXDF; 1 arcmin diameter field of view) in
addition to the reprocessed 10-hour mosaic (3x3 arcmin2) and the
single 31-hour deep field (1x1 arcmin2). All three data sets were
processed and analyzed homogeneously using advanced data reduction and
analysis methods. The 3 point-source flux limit of an unresolved
emission line reaches 3.1x10-19 and 6.3x10-20erg/s/cm^26 at 10-
and 141-hour depths, respectively.We have securely identified and
measured the redshift of 2221 sources, an increase of 41% compared to
the first release.With the exception of eight stars, the collected
sample consists of 25 nearby galaxies (z<0.25), 677 [OII] emitters
(z=0.25-1.5), 201 galaxies in the MUSE redshift desert range
(z=1.5-2.8), and 1308 Lyα emitters (z=2.8-6.7). This represents
an order of magnitude more redshifts than the collection of all
spectroscopic redshifts obtained before MUSE in the Hubble ultra-deep
field area (i.e., 2221 versus 292). At high redshift (z>3), the
difference is even more striking, with a factor of 65 increase (1308
versus 20). We compared the measured redshifts against three published
photometric redshift catalogs and find the photo-z accuracy to be
lower than the constraints provided by photo-z fitting codes. Eighty
percent of the galaxies in our final catalog have an HST counterpart.
These galaxies are on average faint, with a median AB F775W magnitude
of 25.7 and 28.7 for the [OII] and Lyα emitters, respectively.
Fits of their spectral energy distribution show that these galaxies
tend to be low-mass star-forming galaxies, with a median stellar mass
of 6.2x108M☉ and a median star-formation rate of
0.4M_☉/yr. We measured the completeness of our catalog with
respect to HST and found that, in the deepest 141-hour area, 50%
completeness is achieved for an AB magnitude of 27.6 and 28.7 (F775W)
at z=0.8-1.6 and z=3.2-4.5, respectively. Twenty percent of our
catalog, or 424 galaxies, have no HST counterpart. The vast majority
of these new sources are high equivalent-width z>2.8 Lyα
emitters that are detected by MUSE thanks to their bright and
asymmetric broad Lyα line. We release advanced data products,
specific software, and a web interface to select and download data
sets.
Description:
This second data release of the MUSE Hubble Ultra Deep Field surveys
is a major update of the DR1 published in Bacon et al.
(2017A&A...608A...1B 2017A&A...608A...1B) and Inami et al. (2020ApJ...902..113I 2020ApJ...902..113I). Like
DR1, it is based on deep MUSE GTO observations of the HST UDF area. It
covers a field of view of 3x3-arcmin2 at a 10-h depth (MOSAIC) and
1x1-arcmin2 at a 31-h depth (UDF-10), with much improved data
reduction and data analysis processes compared with DR1. A new data
set, the MUSE extremely deep field (MXDF), also located in the UDF XDF
area and covering an approximatively circular area of 1 arcmin in
diameter, has been pushed to a depth of 141h. This data set benefits
from an improved spatial resolution of 0.55-arcsec at 7000Å, thanks
to the GLAO AOF system.
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
dr2-main.dat 3307 2221 Main source catalog (dr2main10.fits)
dr2-z.dat 137 6722 Redshift catalog (dr2z10.fits)
dr2noise.dat 84 3705 Surface brightness and point source limiting
emission flux (dr2noise10.fits)
dr2lines.dat 273 56968 Emission and absorption lines catalog
(dr2lines10.fits)
dr2-nb.dat 385 11938 Narrowband catalog (dr2nb10.fits)
dr1-dr2.dat 73 39 DR1 sources that have been renamed
(dr1dr210.fits)
--------------------------------------------------------------------------------
See also:
J/A+A/608/A2 : MUSE Hubble Ultra Deep Field Survey. II (Inami+, 2017)
J/A+A/608/A8 : MUSE Hubble Ultra Deep Field Survey. VIII (Leclercq+, 2017)
J/A+A/641/A118 : MUSE Hubble Ultra Deep Field Survey. XV (Leclercq+, 2017)
Byte-by-byte Description of file: dr2-main.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 4 I4 --- ID MUSE source identifier (ID)
6- 11 A6 --- DataSet MUSE data set (DATASET) (1)
13- 21 F9.5 h Depth Exposure depth at source
location (DEPTH)
23- 28 A6 --- From Spectrum extraction type
(FROM) (2)
30 I1 --- zconf [1/3]?=- Redshift confidence:
1 (low) - 3 (high) (ZCONF)
32 I1 --- Mconf [0/3]?=- Matching confidence
0-3 (MCONF)
34 I1 --- Iflag [1/3]?=- Isolation flag
(IFLAG)
36- 46 F11.8 --- zsys Systemic redshift in vacuum
(ZSYS) (3)
48- 58 F11.9 --- e_zsys Error in systemic redshift
(ZSYS_ERR)
60- 68 A9 --- r_z Reference redshift line set
(REFZ) (4)
70- 80 F11.8 --- z Reference redshift value in
vacuum (Z)
82- 92 F11.9 --- e_z Error in reference redshift
(Z_ERR)
94 I1 --- DLyAFit [0/1] Flag to indicate double
Lyα fit (DLYAFIT)
96- 105 F10.5 km/s DVAbs ?=- Velocity offset with
respect to reference redshift
for redshift type ABS (DV_ABS)
107- 116 F10.6 km/s e_DVAbs ?=- Velocity offset with
respect to reference redshift
error for redshift type ABS
(DVERRABS)
118- 127 F10.5 km/s DVBalmer ?=- Velocity offset with
respect to reference redshift
for redshift type BALMER
(DV_BALMER)
129- 138 F10.6 km/s e_DVBalmer ?=- Velocity offset with
respect to reference redshift
error for redshift type BALMER
(DVERRBALMER)
140- 149 F10.5 km/s DVCIV1548 ?=- Velocity offset with
respect to reference redshift
for redshift type CIV1548
(DV_CIV1548)
151- 160 F10.6 km/s e_DVCIV1548 ?=- Velocity offset with
respect to reference redshift
error for redshift type
CIV1548 (DVERRCIV1548)
162- 171 F10.5 km/s DVForbidden ?=- Velocity offset with
respect to reference redshift
for redshift type FORBIDDEN
(DV_FORBIDDEN)
173- 182 F10.6 km/s e_DVForbidden ?=- Velocity offset with
respect to reference redshift
error for redshift type
FORBIDDEN (DVERRFORBIDDEN)
184- 193 F10.5 km/s DVLyalpha ?=- Velocity offset with
respect to reference redshift
for redshift type Lyα
(DV_LYALPHA)
195- 204 F10.6 km/s e_DVLyalpha ?=- Velocity offset with
respect to reference redshift
error for redshift type
Lyα (DVERRLYALPHA)
206- 215 F10.5 km/s DVMgII2796 ?=- Velocity offset with
respect to reference redshift
for redshift type MGII2796
(DV_MGII2796)
217- 226 F10.6 km/s e_DVMgII2796 ?=- Velocity offset with
respect to reference redshift
error for redshift type
MGII2796 (DVERRMGII2796)
228- 234 F7.4 deg RAdeg Right ascension (J2000) (RA)
236- 243 F8.4 deg DEdeg Declination (J2000) (DEC)
245- 252 A8 --- CENTER reference center (CENTER) (5)
254- 262 A9 --- IN-HST HST matching flag (IN_HST) (6)
264 I1 --- IN-ORI [0/1] ORIGIN matching flag
(IN_ORI)
266 I1 --- IN-DR1 [0/1] DR1 matching flag
(IN_DR1)
268 I1 --- IN-MXDF [0/1] source is located in
MXDF footprint (IN_MXDF)
270 I1 --- IN-UDF10 [0/1] source is located in
UDF-10 footprint (IN_UDF10)
272- 276 I5 --- RAF-ID ?=- R15 catalog unique matched
ID (RAF_ID)
278- 291 A14 --- RAF-MIDS R15 catalog multiple matched
IDs (RAF_MIDS) (7)
293- 298 I6 --- CANDELS-ID ?=- CANDELS v2 catalog unique
matched ID (CANDELS_ID)
300- 312 A13 --- CANDELS-MIDS CANDELS v2 catalog multiple
matched IDs
(CANDELS_MIDS) (7)
314- 318 I5 --- 3DHST-ID ?=- 3D-HST catalog unique
matched ID (3DHST_ID)
320- 330 A11 --- 3DHST-MIDS 3D-HST catalog multiple
matched IDS (3DHST_MIDS) (7)
332- 336 I5 --- ASTRO-ID ?=- ASTRODEEP catalog unique
matched ID (ASTRO_ID)
337 A1 --- ASTRO-MIDS [ ] ASTRODEEP catalog multiple
matched IDs (ASTRO_MIDS) (7)
339- 345 A7 --- MAG-SRC Source of magnitude
(MAG_SRC) (8)
347 I1 --- MAG-AFLAG [0,1]? Contamination flag
(APER magnitude only)
(MAG_AFLAG) (9)
349- 355 F7.4 mag F606Wmag ?=- broadband AB magnitude in
F606W HST filter
(MAG_F606W) (10)
357- 366 F10.6 mag e_F606Wmag ?=- AB magnitude error in
F606W HST filter
(MAGERR_F606W) (11)
368- 374 F7.4 mag F775Wmag ?=- broadband AB magnitude in
F775W HST filter
(MAG_F775W) (10)
376- 385 F10.6 mag e_F775Wmag ?=- AB magnitude error in
F775W HST filter
(MAGERR_F775W) (11)
387- 393 F7.4 mag F850LPmag ?=- broadband AB magnitude in
F850LP HST filter
(MAG_F850LP) (10)
395- 404 F10.6 mag e_F850LPmag ?=- AB magnitude error in
F850LP HST filter
(MAGERR_F850LP) (11)
406- 414 F9.6 [Msun] logMassP ?=- Stellar mass derived from
the Prospector SED fit
(MASS_PRO)
416- 424 F9.7 [Msun] e_logMassP ?=- Lower 1σ percentile
of logMassP (LERRMASSPRO)
426- 434 F9.7 [Msun] E_logMassP ?=- Upper 1σ percentile
of logMassP (HERRMASSPRO)
436- 442 F7.3 [Msun] logMassM ?=- Stellar mass derived from
the Magphys SED fit
(MASS_MAG)
444- 449 F6.4 [Msun] e_logMassM ?=- Lower 1σ percentile
of logMassM (LERRMASSMAG)
451- 456 F6.4 [Msun] E_logMassM ?=- Upper 1σ percentile
of logMassM (HERRMASSMAG)
458- 465 F8.4 [Msun/yr] logSFRP ?=- Star formation rate at
100Myr lookback time as
derived from the Prospector
SED fit (SFR_PRO)
467- 473 F7.5 [Msun/yr] e_logSFRP ?=- Lower 1σ percentile
of logSFRP (LERRSFRPRO)
475- 486 F12.5 [Msun/yr] E_logSFRP ?=- Upper 1σ percentile
of logSFRP (HERRSFRPRO)
488- 494 F7.3 [Msun/yr] logSFRM ?=- Star formation rate at
100Myr lookback time as
derived from the Magphys
SED fit (SFR_MAG)
496- 501 F6.4 [Msun/yr] e_logSFRM ?=- Lower 1σ percentile
of logSFRM (LERRSFRMAG)
503- 508 F6.4 [Msun/yr] E_logSFRM ?=- Upper 1σ percentile
of logSFRM (HERRSFRMAG)
510- 519 A10 --- LineSNRMax Name of emission or absorption
line with max S/
N (LINESNRMAX) (2)
521- 530 F10.5 --- SNRMax Max S/N (SNR_MAX)
532- 539 F8.1 10-23W/m2 FluxMax Flux of the line with max S/N
(FLUX_MAX)
541- 551 F11.5 10-23W/m2 LyaEmiFlux ?=- Flux of the Lyα
emission line
(LYALPHAEMIFLUX)
553- 561 F9.5 --- LyaEmiSNR ?=- S/N of the Lyα
emission line
(LYALPHAEMISNR)
563- 573 F11.5 0.1nm LyaEmiEW ?=- Rest frame equivalent
width of the Lyα
emission line
(LYALPHAEMIEQW)
575- 583 F9.5 km/s LyaEmiVd ?=- Rest frame velocity
dispersion of the Lyα
emission line
(LYALPHAEMIVD)
585- 594 F10.5 10-23W/m2 CIV1548EmiFlux ?=- Flux of the CIV1548
emission line
(CIV1548EMIFLUX)
596- 603 F8.5 --- CIV1548EmiSNR ?=- S/N of the CIV1548
emission line
(CIV1548EMISNR)
605- 616 F12.5 0.1nm CIV1548EmiEW ?=- Rest frame equivalent
width of the CIV1548 emission
line (CIV1548EMIEQW)
618- 626 F9.5 km/s CIV1548EmiVd ?=- Rest frame velocity
dispersion of the CIV1548
emission line
(CIV1548EMIVD)
628- 637 F10.5 10-23W/m2 CIV1550EmiFlux ?=- Flux of the CIV1550
emission line
(CIV1550EMIFLUX)
639- 647 F9.5 --- CIV1550EmiSNR ?=- S/N of the CIV1550
emission line
(CIV1550EMISNR)
649- 659 F11.5 0.1nm CIV1550EmiEW ?=- Rest frame equivalent
width of the CIV1550 emission
line (CIV1550EMIEQW)
661- 669 F9.5 km/s CIV1550EmiVd ?=- Rest frame velocity
dispersion of the CIV1550
emission line
(CIV1550EMIVD)
671- 679 F9.5 10-23W/m2 HeII1640EmiFlux ?=- Flux of the HeII1640
emission line
(HeII1640EMIFLUX)
681- 689 F9.5 --- HeII1640EmiSNR ?=- S/N of the HeII1640
emission line
(HeII1640EMISNR)
691- 701 F11.5 0.1nm HeII1640EmiEW ?=- Rest frame equivalent
width of the HeII1640
emission line
(HeII1640EMIEQW)
703- 711 F9.5 km/s HeII1640EmiVd ?=- Rest frame velocity
dispersion of the HeII1640
emission line
(HeII1640EMIVD)
713- 721 F9.5 10-23W/m2 OIII1666EmiFlux ?=- Flux of the OIII1666
emission line
(OIII1666EMIFLUX)
723- 731 F9.5 --- OIII1666EmiSNR ?=- S/N of the OIII1666
emission line
(OIII1666EMISNR)
733- 743 F11.5 0.1nm OIII1666EmiEW ?=- Rest frame equivalent
width of the OIII1666
emission line
(OIII1666EMIEQW)
745- 753 F9.5 km/s OIII1666EmiVd ?=- Rest frame velocity
dispersion of the OIII1666
emission line
(OIII1666EMIVD)
755- 763 F9.5 10-23W/m2 SiIII1883EmiFlux ?=- Flux of the SiIII1883
emission line
(SiIII1883EMIFLUX)
765- 773 F9.5 --- SiIII1883EmiSNR ?=- S/N of the SiIII1883
emission line
(SiIII1883EMISNR)
775- 785 F11.5 0.1nm SiIII1883EmiEW ?=- Rest frame equivalent
width of the SiIII1883
emission line
(SiIII1883EMIEQW)
787- 795 F9.5 km/s SiIII1883EmiVd ?=- Rest frame velocity
dispersion of the SiIII1883
emission line
(SiIII1883EMIVD)
797- 805 F9.5 10-23W/m2 CIII1907EmiFlux ?=- Flux of the CIII1907
emission line
(CIII1907EMIFLUX)
807- 815 F9.5 --- CIII1907EmiSNR ?=- S/N of the CIII1907
emission line
(CIII1907EMISNR)
817- 827 F11.5 0.1nm CIII1907EmiEW ?=- Rest frame equivalent
width of the CIII1907
emission line
(CIII1907EMIEQW)
829- 837 F9.5 km/s CIII1907EmiVd ?=- Rest frame velocity
dispersion of the CIII1907
emission line
(CIII1907EMIVD)
839- 847 F9.5 10-23W/m2 CIII1909EmiFlux ?=- Flux of the CIII1909
emission line
(CIII1909EMIFLUX)
849- 857 F9.5 --- CIII1909EmiSNR ?=- S/N of the CIII1909
emission line
(CIII1909EMISNR)
859- 870 F12.5 0.1nm CIII1909EmiEW ?=- Rest frame equivalent
width of the CIII1909
emission line
(CIII1909EMIEQW)
872- 880 F9.5 km/s CIII1909EmiVd ?=- Rest frame velocity
dispersion of the CIII1909
emission line
(CIII1909EMIVD)
882- 891 F10.5 10-23W/m2 MgII2796EmiFlux ?=- Flux of the MgII2796
emission line
(MgII2796EMIFLUX)
893- 901 F9.5 --- MgII2796EmiSNR ?=- S/N of the MgII2796
emission line
(MgII2796EMISNR)
903- 913 F11.5 0.1nm MgII2796EmiEW ?=- Rest frame equivalent
width of the MgII2796
emission line
(MgII2796EMIEQW)
915- 923 F9.5 km/s MgII2796EmiVd ?=- Rest frame velocity
dispersion of the MgII2796
emission line
(MgII2796EMIVD)
925- 934 F10.5 10-23W/m2 MgII2803EmiFlux ?=- Flux of the MgII2803
emission line
(MgII2803EMIFLUX)
936- 944 F9.5 --- MgII2803EmiSNR ?=- S/N of the MgII2803
emission line
(MgII2803EMISNR)
946- 956 F11.5 0.1nm MgII2803EmiEW ?=- Rest frame equivalent
width of the MgII2803
emission line
(MgII2803EMIEQW)
958- 966 F9.5 km/s MgII2803EmiVd ?=- Rest frame velocity
dispersion of the MgII2803
emission line
(MgII2803EMIVD)
968- 979 E12.6 10-23W/m2 OII3726EmiFlux ?=- Flux of the OII3726
emission line
(OII3726EMIFLUX)
981- 990 F10.6 --- OII3726EmiSNR ?=- S/N of the OII3726
emission line
(OII3726EMISNR)
992-1003 E12.6 0.1nm OII3726EmiEW ?=- Rest frame equivalent
width of the OII3726 emission
line (OII3726EMIEQW)
1005-1013 F9.5 km/s OII3726EmiVd ?=- Rest frame velocity
dispersion of the OII3726
emission line
(OII3726EMIVD)
1015-1026 E12.6 10-23W/m2 OII3729EmiFlux ?=- Flux of the OII3729
emission line
(OII3729EMIFLUX)
1028-1037 F10.6 --- OII3729EmiSNR ?=- S/N of the OII3729
emission line
(OII3729EMISNR)
1039-1050 E12.6 0.1nm OII3729EmiEW ?=- Rest frame equivalent
width of the OII3729 emission
line (OII3729EMIEQW)
1052-1060 F9.5 km/s OII3729EmiVd ?=- Rest frame velocity
dispersion of the OII3729
emission line
(OII3729EMIVD)
1062-1071 F10.5 10-23W/m2 H11EmiFlux ?=- Flux of the H11 emission
line (H11EMIFLUX)
1073-1081 F9.5 --- H11EmiSNR ?=- S/N of the H11 emission
line (H11EMISNR)
1083-1093 F11.5 0.1nm H11EmiEW ?=- Rest frame equivalent
width of the H11 emission
line (H11EMIEQW)
1095-1103 F9.5 km/s H11EmiVd ?=- Rest frame velocity
dispersion of the H11
emission line (H11EMIVD)
1105-1114 F10.5 10-23W/m2 H10EmiFlux ?=- Flux of the H10 emission
line (H10EMIFLUX)
1116-1124 F9.5 --- H10EmiSNR ?=- S/N of the H10 emission
line (H10EMISNR)
1126-1136 F11.5 0.1nm H10EmiEW ?=- Rest frame equivalent
width of the H10 emission
line (H10EMIEQW)
1138-1146 F9.5 km/s H10EmiVd ?=- Rest frame velocity
dispersion of the H10
emission line (H10EMIVD)
1148-1157 F10.5 10-23W/m2 H9EmiFlux ?=- Flux of the H9 emission
line (H9EMIFLUX)
1159-1167 F9.5 --- H9EmiSNR ?=- S/N of the H9 emission
line (H9EMISNR)
1169-1179 F11.5 0.1nm H9EmiEW ?=- Rest frame equivalent
width of the H9 emission line
(H9EMIEQW)
1181-1189 F9.5 km/s H9EmiVd ?=- Rest frame velocity
dispersion of the H9 emission
line (H9EMIVD)
1191-1202 E12.6 10-23W/m2 NeIII3869EmiFlux ?=- Flux of the NeIII3869
emission line
(NeIII3869EMIFLUX)
1204-1213 F10.6 --- NeIII3869EmiSNR ?=- S/N of the NeIII3869
emission line
(NeIII3869EMISNR)
1215-1225 F11.5 0.1nm NeIII3869EmiEW ?=- Rest frame equivalent
width of the NeIII3869
emission line
(NeIII3869EMIEQW)
1227-1235 F9.5 km/s NeIII3869EmiVd ?=- Rest frame velocity
dispersion of the NeIII3869
emission line
(NeIII3869EMIVD)
1237-1246 F10.5 10-23W/m2 HeI3889EmiFlux ?=- Flux of the HeI3889
emission line
(HeI3889EMIFLUX)
1248-1257 F10.6 --- HeI3889EmiSNR ?=- S/N of the HeI3889
emission line
(HeI3889EMISNR)
1259-1269 F11.5 0.1nm HeI3889EmiEW ?=- Rest frame equivalent
width of the HeI3889 emission
line (HeI3889EMIEQW)
1271-1279 F9.5 km/s HeI3889EmiVd ?=- Rest frame velocity
dispersion of the HeI3889
emission line
(HeI3889EMIVD)
1281-1290 F10.5 10-23W/m2 H8EmiFlux ?=- Flux of the H8 emission
line (H8EMIFLUX)
1292-1301 F10.6 --- H8EmiSNR ?=- S/N of the H8 emission
line (H8EMISNR)
1303-1313 F11.5 0.1nm H8EmiEW ?=- Rest frame equivalent
width of the H8 emission line
(H8EMIEQW)
1315-1323 F9.5 km/s H8EmiVd ?=- Rest frame velocity
dispersion of the H8 emission
line (H8EMIVD)
1325-1334 F10.5 10-23W/m2 NeIII3967EmiFlux ?=- Flux of the NeIII3967
emission line
(NeIII3967EMIFLUX)
1336-1345 F10.6 --- NeIII3967EmiSNR ?=- S/N of the NeIII3967
emission line
(NeIII3967EMISNR)
1347-1357 F11.5 0.1nm NeIII3967EmiEW ?=- Rest frame equivalent
width of the NeIII3967
emission line
(NeIII3967EMIEQW)
1359-1367 F9.5 km/s NeIII3967EmiVd ?=- Rest frame velocity
dispersion of the NeIII3967
emission line
(NeIII3967EMIVD)
1369-1378 F10.5 10-23W/m2 HeEmiFlux ?=- Flux of the Hε
emission line
(HEPSILONEMIFLUX)
1380-1389 F10.6 --- HeEmiSNR ?=- S/N of the Hε
emission line
(HEPSILONEMISNR)
1391-1401 F11.5 0.1nm HeEmiEW ?=- Rest frame equivalent
width of the Hε
emission line
(HEPSILONEMIEQW)
1403-1411 F9.5 km/s HeEmiVd ?=- Rest frame velocity
dispersion of the Hε
emission line
(HEPSILONEMIVD)
1413-1423 F11.5 10-23W/m2 HdEmiFlux ?=- Flux of the Hδ
emission line
(HDELTAEMIFLUX)
1425-1434 F10.6 --- HdEmiSNR ?=- S/N of the Hδ
emission line
(HDELTAEMISNR)
1436-1446 F11.5 0.1nm HdEmiEW ?=- Rest frame equivalent
width of the Hδ
emission line
(HDELTAEMIEQW)
1448-1456 F9.5 km/s HdEmiVd ?=- Rest frame velocity
dispersion of the Hδ
emission line (HDELTAEMIVD)
1458-1468 F11.5 10-23W/m2 HgEmiFlux ?=- Flux of the Hγ
emission line
(HGAMMAEMIFLUX)
1470-1479 F10.6 --- HgEmiSNR ?=- S/N of the Hγ
emission line
(HGAMMAEMISNR)
1481-1491 F11.5 0.1nm HgEmiEW ?=- Rest frame equivalent
width of the Hγ
emission line
(HGAMMAEMIEQW)
1493-1501 F9.5 km/s HgEmiVd ?=- Rest frame velocity
dispersion of the Hγ
emission line (HGAMMAEMIVD)
1503-1513 F11.5 10-23W/m2 HbEmiFlux ?=- Flux of the Hβ
emission line
(HBETAEMIFLUX)
1515-1526 E12.6 --- HbEmiSNR ?=- S/N of the Hβ
emission line (HBETAEMISNR)
1528-1538 F11.5 0.1nm HbEmiEW ?=- Rest frame equivalent
width of the Hβ emission
line (HBETAEMIEQW)
1540-1548 F9.5 km/s HbEmiVd ?=- Rest frame velocity
dispersion of the Hβ
emission line (HBETAEMIVD)
1550-1560 F11.5 10-23W/m2 OIII4959EmiFlux ?=- Flux of the OIII4959
emission line
(OIII4959EMIFLUX)
1562-1573 E12.6 --- OIII4959EmiSNR ?=- S/N of the OIII4959
emission line
(OIII4959EMISNR)
1575-1585 F11.5 0.1nm OIII4959EmiEW ?=- Rest frame equivalent
width of the OIII4959
emission line
(OIII4959EMIEQW)
1587-1595 F9.5 km/s OIII4959EmiVd ?=- Rest frame velocity
dispersion of the OIII4959
emission line
(OIII4959EMIVD)
1597-1608 F12.5 10-23W/m2 OIII5007EmiFlux ?=- Flux of the OIII5007
emission line
(OIII5007EMIFLUX)
1610-1621 E12.6 --- OIII5007EmiSNR ?=- S/N of the OIII5007
emission line
(OIII5007EMISNR)
1623-1634 E12.6 0.1nm OIII5007EmiEW ?=- Rest frame equivalent
width of the OIII5007
emission line
(OIII5007EMIEQW)
1636-1644 F9.5 km/s OIII5007EmiVd ?=- Rest frame velocity
dispersion of the OIII5007
emission line
(OIII5007EMIVD)
1646-1657 F12.5 10-23W/m2 HaEmiFlux ?=- Flux of the Hα
emission line
(HALPHAEMIFLUX)
1659-1670 E12.6 --- HaEmiSNR ?=- S/N of the Hα
emission line
(HALPHAEMISNR)
1672-1682 F11.5 0.1nm HaEmiEW ?=- Rest frame equivalent
width of the Hα
emission line
(HALPHAEMIEQW)
1684-1692 F9.5 km/s HaEmiVd ?=- Rest frame velocity
dispersion of the Hα
emission line (HALPHAEMIVD)
1694-1704 F11.5 10-23W/m2 NII6584EmiFlux ?=- Flux of the NII6584
emission line
(NII6584EMIFLUX)
1706-1715 F10.6 --- NII6584EmiSNR ?=- S/N of the NII6584
emission line
(NII6584EMISNR)
1717-1726 F10.5 0.1nm NII6584EmiEW ?=- Rest frame equivalent
width of the NII6584 emission
line (NII6584EMIEQW)
1728-1736 F9.5 km/s NII6584EmiVd ?=- Rest frame velocity
dispersion of the NII6584
emission line
(NII6584EMIVD)
1738-1748 F11.5 10-23W/m2 SII6717EmiFlux ?=- Flux of the SII6717
emission line
(SII6717EMIFLUX)
1750-1759 F10.6 --- SII6717EmiSNR ?=- S/N of the SII6717
emission line
(SII6717EMISNR)
1761-1770 F10.5 0.1nm SII6717EmiEW ?=- Rest frame equivalent
width of the SII6717 emission
line (SII6717EMIEQW)
1772-1780 F9.5 km/s SII6717EmiVd ?=- Rest frame velocity
dispersion of the SII6717
emission line
(SII6717EMIVD)
1782-1793 E12.6 10-23W/m2 SiII1260AbsFlux ?=- Flux of the SiII1260
absorption line
(SiII1260ABSFLUX)
1795-1803 F9.5 --- SiII1260AbsSNR ?=- S/N of the SiII1260
absorption line
(SiII1260ABSSNR)
1805-1816 E12.6 0.1nm SiII1260AbsEW ?=- Rest frame equivalent
width of the SiII1260
absorption line
(SiII1260ABSEQW)
1818-1826 F9.5 km/s SiII1260AbsVd ?=- Rest frame velocity
dispersion of the SiII1260
absorption line
(SiII1260ABSVD)
1828-1839 E12.6 10-23W/m2 OI1302AbsFlux ?=- Flux of the OI1302
absorption line
(OI1302ABSFLUX)
1841-1849 F9.5 --- OI1302AbsSNR ?=- S/N of the OI1302
absorption line
(OI1302ABSSNR)
1851-1862 E12.6 0.1nm OI1302AbsEW ?=- Rest frame equivalent
width of the OI1302
absorption line
(OI1302ABSEQW)
1864-1872 F9.5 km/s OI1302AbsVd ?=- Rest frame velocity
dispersion of the OI1302
absorption line
(OI1302ABSVD)
1874-1883 F10.5 10-23W/m2 CII1334AbsFlux ?=- Flux of the CII1334
absorption line
(CII1334ABSFLUX)
1885-1893 F9.5 --- CII1334AbsSNR ?=- S/N of the CII1334
absorption line
(CII1334ABSSNR)
1895-1905 F11.5 0.1nm CII1334AbsEW ?=- Rest frame equivalent
width of the CII1334
absorption line
(CII1334ABSEQW)
1907-1915 F9.5 km/s CII1334AbsVd ?=- Rest frame velocity
dispersion of the CII1334
absorption line
(CII1334ABSVD)
1917-1928 E12.6 10-23W/m2 SiIV1394AbsFlux ?=- Flux of the SiIV1394
absorption line
(SiIV1394ABSFLUX)
1930-1938 F9.5 --- SiIV1394AbsSNR ?=- S/N of the SiIV1394
absorption line
(SiIV1394ABSSNR)
1940-1951 E12.6 0.1nm SiIV1394AbsEW ?=- Rest frame equivalent
width of the SiIV1394
absorption line
(SiIV1394ABSEQW)
1953-1961 F9.5 km/s SiIV1394AbsVd ?=- Rest frame velocity
dispersion of the SiIV1394
absorption line
(SiIV1394ABSVD)
1963-1974 E12.6 10-23W/m2 SiIV1403AbsFlux ?=- Flux of the SiIV1403
absorption line
(SiIV1403ABSFLUX)
1976-1984 F9.5 --- SiIV1403AbsSNR ?=- S/N of the SiIV1403
absorption line
(SiIV1403ABSSNR)
1986-1997 E12.6 0.1nm SiIV1403AbsEW ?=- Rest frame equivalent
width of the SiIV1403
absorption line
(SiIV1403ABSEQW)
1999-2007 F9.5 km/s SiIV1403AbsVd ?=- Rest frame velocity
dispersion of the SiIV1403
absorption line
(SiIV1403ABSVD)
2009-2020 E12.6 10-23W/m2 SiII1527AbsFlux ?=- Flux of the SiII1527
absorption line
(SiII1527ABSFLUX)
2022-2030 F9.5 --- SiII1527AbsSNR ?=- S/N of the SiII1527
absorption line
(SiII1527ABSSNR)
2032-2043 E12.6 0.1nm SiII1527AbsEW ?=- Rest frame equivalent
width of the SiII1527
absorption line
(SiII1527ABSEQW)
2045-2053 F9.5 km/s SiII1527AbsVd ?=- Rest frame velocity
dispersion of the SiII1527
absorption line
(SiII1527ABSVD)
2055-2066 E12.6 10-23W/m2 CIV1548AbsFlux ?=- Flux of the CIV1548
absorption line
(CIV1548ABSFLUX)
2068-2076 F9.5 --- CIV1548AbsSNR ?=- S/N of the CIV1548
absorption line
(CIV1548ABSSNR)
2078-2088 F11.5 0.1nm CIV1548AbsEW ?=- Rest frame equivalent
width of the CIV1548
absorption line
(CIV1548ABSEQW)
2090-2098 F9.5 km/s CIV1548AbsVd ?=- Rest frame velocity
dispersion of the CIV1548
absorption line
(CIV1548ABSVD)
2100-2111 E12.6 10-23W/m2 CIV1550AbsFlux ?=- Flux of the CIV1550
absorption line
(CIV1550ABSFLUX)
2113-2121 F9.5 --- CIV1550AbsSNR ?=- S/N of the CIV1550
absorption line
(CIV1550ABSSNR)
2123-2133 F11.5 0.1nm CIV1550AbsEW ?=- Rest frame equivalent
width of the CIV1550
absorption line
(CIV1550ABSEQW)
2135-2143 F9.5 km/s CIV1550AbsVd ?=- Rest frame velocity
dispersion of the CIV1550
absorption line
(CIV1550ABSVD)
2145-2154 F10.5 10-23W/m2 FeII1608AbsFlux ?=- Flux of the FeII1608
absorption line
(FeII1608ABSFLUX)
2156-2164 F9.5 --- FeII1608AbsSNR ?=- S/N of the FeII1608
absorption line
(FeII1608ABSSNR)
2166-2176 F11.5 0.1nm FeII1608AbsEW ?=- Rest frame equivalent
width of the FeII1608
absorption line
(FeII1608ABSEQW)
2178-2186 F9.5 km/s FeII1608AbsVd ?=- Rest frame velocity
dispersion of the FeII1608
absorption line
(FeII1608ABSVD)
2188-2197 F10.5 10-23W/m2 AlII1671AbsFlux ?=- Flux of the AlII1671
absorption line
(AlII1671ABSFLUX)
2199-2207 F9.5 --- AlII1671AbsSNR ?=- S/N of the AlII1671
absorption line
(AlII1671ABSSNR)
2209-2219 F11.5 0.1nm AlII1671AbsEW ?=- Rest frame equivalent
width of the AlII1671
absorption line
(AlII1671ABSEQW)
2221-2229 F9.5 km/s AlII1671AbsVd ?=- Rest frame velocity
dispersion of the AlII1671
absorption line
(AlII1671ABSVD)
2231-2240 F10.5 10-23W/m2 AlIII1854AbsFlux ?=- Flux of the AlIII1854
absorption line
(AlIII1854ABSFLUX)
2242-2250 F9.5 --- AlIII1854AbsSNR ?=- S/N of the AlIII1854
absorption line
(AlIII1854ABSSNR)
2252-2262 F11.5 0.1nm AlIII1854AbsEW ?=- Rest frame equivalent
width of the AlIII1854
absorption line
(AlIII1854ABSEQW)
2264-2272 F9.5 km/s AlIII1854AbsVd ?=- Rest frame velocity
dispersion of the AlIII1854
absorption line
(AlIII1854ABSVD)
2274-2283 F10.5 10-23W/m2 AlIII1862AbsFlux ?=- Flux of the AlIII1862
absorption line
(AlIII1862ABSFLUX)
2285-2293 F9.5 --- AlIII1862AbsSNR ?=- S/N of the AlIII1862
absorption line
(AlIII1862ABSSNR)
2295-2305 F11.5 0.1nm AlIII1862AbsEW ?=- Rest frame equivalent
width of the AlIII1862
absorption line
(AlIII1862ABSEQW)
2307-2315 F9.5 km/s AlIII1862AbsVd ?=- Rest frame velocity
dispersion of the AlIII1862
absorption line
(AlIII1862ABSVD)
2317-2327 F11.5 10-23W/m2 FeII2344AbsFlux ?=- Flux of the FeII2344
absorption line
(FeII2344ABSFLUX)
2329-2337 F9.5 --- FeII2344AbsSNR ?=- S/N of the FeII2344
absorption line
(FeII2344ABSSNR)
2339-2349 F11.5 0.1nm FeII2344AbsEW ?=- Rest frame equivalent
width of the FeII2344
absorption line
(FeII2344ABSEQW)
2351-2359 F9.5 km/s FeII2344AbsVd ?=- Rest frame velocity
dispersion of the FeII2344
absorption line
(FeII2344ABSVD)
2361-2370 F10.5 10-23W/m2 FeII2374AbsFlux ?=- Flux of the FeII2374
absorption line
(FeII2374ABSFLUX)
2372-2380 F9.5 --- FeII2374AbsSNR ?=- S/N of the FeII2374
absorption line
(FeII2374ABSSNR)
2382-2392 F11.5 0.1nm FeII2374AbsEW ?=- Rest frame equivalent
width of the FeII2374
absorption line
(FeII2374ABSEQW)
2394-2402 F9.5 km/s FeII2374AbsVd ?=- Rest frame velocity
dispersion of the FeII2374
absorption line
(FeII2374ABSVD)
2404-2414 F11.5 10-23W/m2 FeII2382AbsFlux ?=- Flux of the FeII2382
absorption line
(FeII2382ABSFLUX)
2416-2424 F9.5 --- FeII2382AbsSNR ?=- S/N of the FeII2382
absorption line
(FeII2382ABSSNR)
2426-2436 F11.5 0.1nm FeII2382AbsEW ?=- Rest frame equivalent
width of the FeII2382
absorption line
(FeII2382ABSEQW)
2438-2446 F9.5 km/s FeII2382AbsVd ?=- Rest frame velocity
dispersion of the FeII2382
absorption line
(FeII2382ABSVD)
2448-2458 F11.5 10-23W/m2 FeII2586AbsFlux ?=- Flux of the FeII2586
absorption line
(FeII2586ABSFLUX)
2460-2468 F9.5 --- FeII2586AbsSNR ?=- S/N of the FeII2586
absorption line
(FeII2586ABSSNR)
2470-2480 F11.5 0.1nm FeII2586AbsEW ?=- Rest frame equivalent
width of the FeII2586
absorption line
(FeII2586ABSEQW)
2482-2490 F9.5 km/s FeII2586AbsVd ?=- Rest frame velocity
dispersion of the FeII2586
absorption line
(FeII2586ABSVD)
2492-2502 F11.5 10-23W/m2 FeII2600AbsFlux ?=- Flux of the FeII2600
absorption line
(FeII2600ABSFLUX)
2504-2512 F9.5 --- FeII2600AbsSNR ?=- S/N of the FeII2600
absorption line
(FeII2600ABSSNR)
2514-2524 F11.5 0.1nm FeII2600AbsEW ?=- Rest frame equivalent
width of the FeII2600
absorption line
(FeII2600ABSEQW)
2526-2534 F9.5 km/s FeII2600AbsVd ?=- Rest frame velocity
dispersion of the FeII2600
absorption line
(FeII2600ABSVD)
2536-2546 F11.5 10-23W/m2 MgII2796AbsFlux ?=- Flux of the MgII2796
absorption line
(MgII2796ABSFLUX)
2548-2556 F9.5 --- MgII2796AbsSNR ?=- S/N of the MgII2796
absorption line
(MgII2796ABSSNR)
2558-2568 F11.5 0.1nm MgII2796AbsEW ?=- Rest frame equivalent
width of the MgII2796
absorption line
(MgII2796ABSEQW)
2570-2578 F9.5 km/s MgII2796AbsVd ?=- Rest frame velocity
dispersion of the MgII2796
absorption line
(MgII2796ABSVD)
2580-2590 F11.5 10-23W/m2 MgII2803AbsFlux ?=- Flux of the MgII2803
absorption line
(MgII2803ABSFLUX)
2592-2600 F9.5 --- MgII2803AbsSNR ?=- S/N of the MgII2803
absorption line
(MgII2803ABSSNR)
2602-2612 F11.5 0.1nm MgII2803AbsEW ?=- Rest frame equivalent
width of the MgII2803
absorption line
(MgII2803ABSEQW)
2614-2622 F9.5 km/s MgII2803AbsVd ?=- Rest frame velocity
dispersion of the MgII2803
absorption line
(MgII2803ABSVD)
2624-2634 F11.5 10-23W/m2 MgI2853AbsFlux ?=- Flux of the MgI2853
absorption line
(MgI2853ABSFLUX)
2636-2644 F9.5 --- MgI2853AbsSNR ?=- S/N of the MgI2853
absorption line
(MgI2853ABSSNR)
2646-2656 F11.5 0.1nm MgI2853AbsEW ?=- Rest frame equivalent
width of the MgI2853
absorption line
(MgI2853ABSEQW)
2658-2666 F9.5 km/s MgI2853AbsVd ?=- Rest frame velocity
dispersion of the MgI2853
absorption line
(MgI2853ABSVD)
2668-2678 F11.5 10-23W/m2 H11AbsFlux ?=- Flux of the H11 absorption
line (H11ABSFLUX)
2680-2688 F9.5 --- H11AbsSNR ?=- S/N of the H11 absorption
line (H11ABSSNR)
2690-2700 F11.5 0.1nm H11AbsEW ?=- Rest frame equivalent
width of the H11 absorption
line (H11ABSEQW)
2702-2710 F9.5 --- H11AbsVd ?=- Rest frame velocity
dispersion of the H11
absorption line (H11ABSVD)
2712-2722 F11.5 10-23W/m2 H10AbsFlux ?=- Flux of the H10 absorption
line (H10ABSFLUX)
2724-2733 F10.6 --- H10AbsSNR ?=- S/N of the H10 absorption
line (H10ABSSNR)
2735-2745 F11.5 0.1nm H10AbsEW ?=- Rest frame equivalent
width of the H10 absorption
line (H10ABSEQW)
2747-2755 F9.5 --- H10AbsVd ?=- Rest frame velocity
dispersion of the H10
absorption line (H10ABSVD)
2757-2768 F12.5 10-23W/m2 H9AbsFlux ?=- Flux of the H9 absorption
line (H9ABSFLUX)
2770-2779 F10.6 --- H9AbsSNR ?=- S/N of the H9 absorption
line (H9ABSSNR)
2781-2791 F11.5 0.1nm H9AbsEW ?=- Rest frame equivalent
width of the H9 absorption
line (H9ABSEQW)
2793-2801 F9.5 km/s H9AbsVd ?=- Rest frame velocity
dispersion of the H9
absorption line (H9ABSVD)
2803-2814 E12.6 10-23W/m2 H8AbsFlux ?=- Flux of the H8 absorption
line (H8ABSFLUX)
2816-2825 F10.6 --- H8AbsSNR ?=- S/N of the H8 absorption
line (H8ABSSNR)
2827-2838 E12.6 0.1nm H8AbsEW ?=- Rest frame equivalent
width of the H8 absorption
line (H8ABSEQW)
2840-2848 F9.5 km/s H8AbsVd ?=- Rest frame velocity
dispersion of the H8
absorption line (H8ABSVD)
2850-2861 F12.5 10-23W/m2 CaKAbsFlux ?=- Flux of the CaK absorption
line (CaKABSFLUX)
2863-2872 F10.6 --- CaKAbsSNR ?=- S/N of the CaK absorption
line (CaKABSSNR)
2874-2884 F11.5 0.1nm CaKAbsEW ?=- Rest frame equivalent
width of the CaK absorption
line (CaKABSEQW)
2886-2894 F9.5 km/s CaKAbsVd ?=- Rest frame velocity
dispersion of the CaK
absorption line (CaKABSVD)
2896-2907 F12.5 10-23W/m2 CaHAbsFlux ?=- Flux of the CaH absorption
line (CaHABSFLUX)
2909-2918 F10.6 --- CaHAbsSNR ?=- S/N of the CaH absorption
line (CaHABSSNR)
2920-2930 F11.5 0.1nm CaHAbsEW ?=- Rest frame equivalent
width of the CaH absorption
line (CaHABSEQW)
2932-2940 F9.5 km/s CaHAbsVd ?=- Rest frame velocity
dispersion of the CaH
absorption line (CaHABSVD)
2942-2953 F12.5 10-23W/m2 HeAbsFlux ?=- Flux of the Hε
absorption line
(HEPSILONABSFLUX)
2955-2964 F10.6 --- HeAbsSNR ?=- S/N of the Hε
absorption line
(HEPSILONABSSNR)
2966-2976 F11.5 0.1nm HeAbsEW ?=- Rest frame equivalent
width of the Hε
absorption line
(HEPSILONABSEQW)
2978-2986 F9.5 km/s HeAbsVd ?=- Rest frame velocity
dispersion of the Hε
absorption line
(HEPSILONABSVD)
2988-2998 F11.5 10-23W/m2 HdAbsFlux ?=- Flux of the Hδ
absorption line
(HDELTAABSFLUX)
3000-3009 F10.6 --- HdAbsSNR ?=- S/N of the Hδ
absorption line
(HDELTAABSSNR)
3011-3021 F11.5 0.1nm HdAbsEW ?=- Rest frame equivalent
width of the Hδ
absorption line
(HDELTAABSEQW)
3023-3031 F9.5 km/s HdAbsVd ?=- Rest frame velocity
dispersion of the Hδ
absorption line
(HDELTAABSVD)
3033-3044 F12.5 10-23W/m2 CaGAbsFlux ?=- Flux of the CaG absorption
line (CaGABSFLUX)
3046-3055 F10.6 --- CaGAbsSNR ?=- S/N of the CaG absorption
line (CaGABSSNR)
3057-3067 F11.5 0.1nm CaGAbsEW ?=- Rest frame equivalent
width of the CaG absorption
line (CaGABSEQW)
3069-3077 F9.5 km/s CaGAbsVd ?=- Rest frame velocity
dispersion of the CaG
absorption line (CaGABSVD)
3079-3090 F12.5 10-23W/m2 HgAbsFlux ?=- Flux of the Hγ
absorption line
(HGAMMAABSFLUX)
3092-3101 F10.6 --- HgAbsSNR ?=- S/N of the Hγ
absorption line
(HGAMMAABSSNR)
3103-3113 F11.5 0.1nm HgAbsEW ?=- Rest frame equivalent
width of the Hγ
absorption line
(HGAMMAABSEQW)
3115-3123 F9.5 km/s HgAbsVd ?=- Rest frame velocity
dispersion of the Hγ
absorption line
(HGAMMAABSVD)
3125-3136 F12.5 10-23W/m2 HbAbsFlux ?=- Flux of the Hβ
absorption line
(HBETAABSFLUX)
3138-3147 F10.6 --- HbAbsSNR ?=- S/N of the Hβ
absorption line
(HBETAABSSNR)
3149-3159 F11.5 0.1nm HbAbsEW ?=- Rest frame equivalent
width of the Hβ
absorption line
(HBETAABSEQW)
3161-3169 F9.5 km/s HbAbsVd ?=- Rest frame velocity
dispersion of the Hβ
absorption line
(HBETAABSVD)
3171-3182 F12.5 10-23W/m2 MgBAbsFlux ?=- Flux of the MgB absorption
line (MgBABSFLUX)
3184-3193 F10.6 --- MgBAbsSNR ?=- S/N of the MgB absorption
line (MgBABSSNR)
3195-3205 F11.5 0.1nm MgBAbsEW ?=- Rest frame equivalent
width of the MgB absorption
line (MgBABSEQW)
3207-3215 F9.5 km/s MgBAbsVd ?=- Rest frame velocity
dispersion of the MgB
absorption line (MgBABSVD)
3217-3228 F12.5 10-23W/m2 NaDAbsFlux ?=- Flux of the NaD absorption
line (NaDABSFLUX)
3230-3239 F10.6 --- NaDAbsSNR ?=- S/N of the NaD absorption
line (NaDABSSNR)
3241-3251 F11.5 0.1nm NaDAbsEW ?=- Rest frame equivalent
width of the NaD absorption
line (NaDABSEQW)
3253-3261 F9.5 km/s NaDAbsVd ?=- Rest frame velocity
dispersion of the NaD
absorption line (NaDABSVD)
3263-3274 F12.5 10-23W/m2 HaAbsFlux ?=- Flux of the Hα
absorption line
(HALPHAABSFLUX)
3276-3285 F10.6 --- HaAbsSNR ?=- S/N of the Hα
absorption line
(HALPHAABSSNR)
3287-3297 F11.5 0.1nm HaAbsEW ?=- Rest frame equivalent
width of the Hα
absorption line
(HALPHAABSEQW)
3299-3307 F9.5 km/s HaAbsVd ?=- Rest frame velocity
dispersion of the Hα
absorption line
(HALPHAABSVD)
--------------------------------------------------------------------------------
Note (1): MXDF,UDF10 or MOSAIC
Note (2): ORIGIN,ODHIN or NBEXT
Note (3): Zsys=Z, except for for simple peak Lyα emitters
Note (4): BALMER,FORBIDDEN,LYALPHA,ABS,CIV1548 or MGII2796
Note (5): 3DHST,CANDELS,CUSTOM,NB_EMI,ORIGIN or RAFELSKI
Note (6): Ambiguous, Detected, Faint, Missed or Undetect
Note (7): Coded as text with comma separator (e.g., 23,567)
Note (8): APER,3DHST,CANDELS or RAF. Aperture photometry (APER) is used for
undetected HST source (Sect. 6.2)
Note (9): If true indicate source contamination
Note (10): Filters are F606W, F775W or F850LP
Note (11): If MAGERR_xxx < 0, then MAG_xxx = noise stdev
--------------------------------------------------------------------------------
Byte-by-byte Description of file: dr2-z.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 4 I4 --- ID MUSE source identifier (ID)
6- 11 A6 --- Dataset MUSE data set (DATASET)
13- 21 A9 --- LineSet Line set (LINESET)
23- 33 F11.8 --- z Redshift in vacuum (Z)
35- 44 F10.8 --- e_z Error in redshift (Z_ERR)
46- 53 F8.2 km/s Vel Velocity offset with respect to reference
redshift (VEL)
55- 61 F7.3 km/s e_Vel Velocity offset error (VEL_ERR)
63- 68 F6.2 km/s Vdisp Rest-frame velocity dispersion (VDISP)
70- 76 F7.3 km/s e_Vdisp Error in velocity dispersion (VDISP_ERR)
78- 87 A10 --- Line Name of line with the highest S/N (LINE)
89-100 E12.6 --- SNRmax Maximum S/N for the fitted lines (SNRMAX)
102-113 E12.6 --- SNRsum Total S/N for all lines (SNRSUM)
115-121 F7.2 --- SNRSumClip Total S/N for lines with S/N>3
(SNRSUM_CLIPPED)
123-124 I2 --- NL [1/17] Number of fitted lines (NL)
126-127 I2 --- NLClip [0/16] Number of fitted lines with S/N>3
(NL_CLIPPED)
129-135 F7.1 --- Rchi2 Returned reduced chi2 by the minimization
routine (RCHI2)
137 I1 --- Status [0/3] Returned status of the fitting function
(STATUS)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: dr2noise.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 6 F6.1 0.1nm lambda Wavelength (WAVE)
8- 19 E12.6 --- SB-MOSAIC Median surface brightness 1σ limiting
emission line flux for the MOSAIC data set
(10- hour depth) (SB_MOSAIC)
21- 32 E12.6 --- SB-UDF10 Median surface brightness 1σ limiting
emission line flux for the UDF-10 data set
(31-hour depth) (SB_UDF10)
34- 45 E12.6 --- SB-MXDF Median surface brightness 1σ limiting
emission line flux for the MXDF data set
(141-hour depth) (SB_MXDF)
47- 58 E12.6 --- PS-MOSAIC Median point-source 1σ limiting
emission line flux for the MOSAIC data set
(10-hour depth) (PS_MOSAIC)
60- 71 E12.6 --- PS-UDF10 Median point-source 1σ limiting
emission line flux for the UDF-10 data set
(31-hour depth) (PS_UDF10)
73- 84 E12.6 --- PS-MXDF Median point-source 1σ limiting
emission line flux for the MXDF data set
(141-hour depth) (PS_MXDF)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: dr2lines.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 4 I4 --- ID MUSE source identifier (ID)
6- 11 A6 --- DataSet MUSE data set (DATASET) (1)
13- 21 A9 --- LineSet Line set (LINESET) (2)
23- 32 A10 --- Line Line identifier (e.g., LYALPHA)
(LINE)
34 I1 --- IsBlend [0/1] Is blend? (ISBLEND)
36- 42 F7.2 --- lambdaRest Rest wavelength (LBDA_REST)
44- 53 A10 --- DName Display name for the line
(e.g., Lya), set to.
None for close doublets (DNAME)
55- 62 F8.1 10-23W/m2 Flux Totla line flux (FLUX)
64- 75 E12.6 10-23W/m2 e_Flux ?=- Total line flux error (FLUX_ERR)
77- 83 F7.2 --- SNR Line S/N (SNR)
85- 95 F11.8 --- z Redshift in vacuum (Z)
97-106 F10.8 --- e_z Redshift in vacuum error (Z_ERR)
108-113 F6.2 km/s Vdisp Rest-frame dispersion velocity
(VDISP)
115-121 F7.3 km/s e_Vdisp Rest-frame dispersion velocity error
(VDISP_ERR)
123-130 F8.5 --- Skew ?=- Skewness parameter (SKEW)
132-139 F8.6 --- e_Skew ?=- Skewness parameter error
(SKEW_ERR) (3)
141-147 F7.3 km/s Sep ?=- Separation between the two peaks
(SEP) (4)
149-156 F8.4 km/s e_Sep ?=- Separation error (SEP_ERR) (4)
158-164 F7.4 km/s VDINST ?=- Instrumental velocity dispersion
(VDINST)
166-172 F7.2 0.1nm lambdaObs Fitted position of the line peak in
observed frame (LBDA_OBS)
174-181 F8.1 10-22W/m2/nm PeakObs Maximum flux of the line peak in
observed frame (PEAK_OBS)
183-189 F7.2 0.1nm lambdaLeft Observed wavelength at the left of
the peak with half peak value
(LBDA_LEFT)
191-197 F7.2 0.1nm lambdaRight Observed wavelength at the right of
the peak with half peak value
(LBDA_RIGHT)
199-206 F8.5 0.1nm FWHMObs Full width at half maximum of the
line in the observed frame
(FWHM_OBS)
208-217 F10.3 0.1nm EW ?=- restframe line equivalent width
(EQW)
219-230 E12.6 0.1nm e_EW ?=- restframe line equivalent width
error (EQW_ERR)
232-241 F10.5 10-22W/m2/nm ContObs ?=- Continuum mean value in observed
frame (CONT_OBS)
243-252 F10.5 10-22W/m2/nm Cont ?=- Continuum mean value in rest
frame (CONT)
254-263 F10.6 10-22W/m2/nm e_Cont ?=- Continuum mean value in rest
frame error (CONT_ERR)
265-273 F9.5 --- NSTD ?=- log10 of the line fit relative
error (NSTD)
--------------------------------------------------------------------------------
Note (1): MXDF,UDF10 or MOSAIC
Note (2): BALMER, FORBIDDEN, LYALPHA, ABS, CIV1548 or MGII2796
Note (3): restricted to Lyα line
Note (4): restricted to double peaked Lyα line fit
--------------------------------------------------------------------------------
Byte-by-byte Description of file: dr2-nb.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 4 I4 --- ID MUSE source identifier (ID)
6- 11 A6 --- DataSet MUSE data set (DATASET) (1)
13- 28 A16 --- Line narrowband name (e.g., NBEMIOII3727)
(LINE) (2)
30 I1 --- Combined [0/1] indicates if the image is a
combination of multiple narrow bands
(COMBINED)
32-170 A139 --- Lines List of emission lines combined together
(e.g., OII3726,OII3729) (LINES)
172-186 A15 --- DName Display name for the line (e.g., Lyalpha)
(DNAME)
188-194 F7.2 --- SNRlines ?=- Lines total S/N (SNR_LINES)
196-207 F12.5 10-23W/m2 Flux ?=- Narrowband flux measured over the
segmented area (FLUX) (3)
209-218 F10.6 10-23W/m2 e_Flux ?=- Narrowband flux error using datacube
variance (FLUX_ERR)
220-228 F9.5 10-23W/m2 e_FluxISO ?=- Narrowband flux error from SExtractor
"isocontour" mode (FLUXISOERR)
230-236 F7.2 --- SNR-NB ?=- Narrowband S/N derived from
Flux/e_Flux (SNR_NB) (3)
238-249 F12.5 10-23W/m2 FluxAuto ?=- Narrowband flux from SExtractor
"automatic" mode (FLUX_AUTO)
251-261 F11.6 10-23W/m2 e_FluxAuto ?=- Narrowband flux error from SExtractor
"automatic" mode (FLUXAUTOERR)
263-268 F6.1 0.1nm lambdaInf ? Lower limits in wavelength used for
narrowband computation, first value
(LBDAINF1) (4)
269 A1 --- --- [,]
270-275 F6.1 0.1nm lambdaInf2 ? Lower limits in wavelength used for
narrowband computation, second value
(LBDAINF2) (4)
276 A1 --- --- [,]
277-282 F6.1 0.1nm lambdaInf3 ? Lower limits in wavelength used for
narrowband computation, third value
(LBDAINF3) (4)
284-289 F6.1 0.1nm lambdaSup ? Upper limits in wavelength used for
narrowband computation, first value
(LBDASUP1) (4)
290 A1 --- --- [,]
291-296 F6.1 0.1nm lambdaSup2 ? Upper limits in wavelength used for
narrowband computation, second value
(LBDASUP2) (4)
297 A1 --- --- [,]
298-303 F6.1 0.1nm lambdaSup3 ? Upper limits in wavelength used for
narrowband computation, third value
(LBDASUP3) (4)
305-311 F7.4 deg RAdeg ?=- Right ascension of
narrowband barycenter (J2000) (RA)
313-320 F8.4 deg DEdeg ?=- Declination of
narrowband barycenter (J2000) (DEC)
322-332 F11.9 arcsec Offset ?=- Offset with respect to source
reference center (OFFSET)
334-338 F5.2 arcsec+2 Area ?=- Segmented area (AREA)
340-347 F8.4 deg PA []?=- Principal axis (PA)
349-357 F9.7 arcsec Majax ?=- Major axis (MAJAX)
359-367 F9.7 arcsec Minax ?=- Minor axis (MINAX)
369-377 F9.7 --- Ell ?=- Ellipticity (ELL)
379-383 F5.3 arcsec Kron ?=- KRON radius (KRON)
385 I1 --- Nseg ?=- Number of segments (NSEG)
--------------------------------------------------------------------------------
Note (1): MXDF,UDF10 or MOSAIC
Note (2): The names NBEMICOMBINED or NBABSCOMBINED are used for the optimal
combination of emission or absorption lines (see Sect. 5.6)
Note (3): These values are obtained over the narrowband-segmented area, they
are generally different from the values reported in the lines table.
Note (4): This is a list if more than one interval was used for the narrowband
computation
--------------------------------------------------------------------------------
Byte-by-byte Description of file: dr1-dr2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 4 I4 --- DR1-ID Previous DR1 source identifier (DR1_ID)
6- 13 F8.6 --- DR1-z Previous DR1 redshift (DR1_Z)
15 I1 --- DR1-zconf [1/3] Previous DR1 redshift confidence
(DR1_ZCONF)
17- 20 I4 --- DR2-ID New DR2 source identifier (DR2_ID)
22- 29 F8.6 --- DR2-z New DR2 redshift (DR2_Z)
31 I1 --- DR2-zconf [1/3] New DR2 redshift confidence (DR2_ZCONF)
33- 73 A41 --- DR2-com Comments (DR2_COM)
--------------------------------------------------------------------------------
Acknowledgements:
Roland Bacon, roland.bacon(at)univ-lyon1.fr
(End) Patricia Vannier [CDS] 30-Nov-2022