Pos: 00:21:01 +00:52:48
Redshift: 0.098393
log M★: 9.09 M☉
log SFR: 1.07 yr-1
Metallicity: 0.30 Z/Z☉
Mission Overview
COS Legacy Archive Spectroscopic SurveY (CLASSY)
Primary Investigators: Danielle Berg, John Chisholm, Bethan James, Tim Heckman, Crystal Martin, Dan Stark
HLSP Website Authors: Danielle Berg, Bethan James, Meaghan McDonald, Teagan King
Released: 2022-03-15
Updated: 2024-09-xx
Primary Reference(s): Berg et al. 2022, James et al. 2022
DOI: 10.17909/m3fq-jj25
Citations: See ADS Statistics
Source Data:
Slideshow
CLASSY Coadded FUV Spectra
Final co-added absorption UV spectra from CLASSY observations. Vertical lines denote the following lines: blue = ISM, orange dashed = nebular, green dashed = wind.
CLASSY Coadded FUV Spectra
Final co-added emission FUV spectra from CLASSY observations. Vertical lines denote the following lines: blue = ISM, orange dashed = nebular, green dashed = wind.
Overview
Far-UV spectra are fundamental to our understanding of star-forming galaxies, providing a unique window on massive stellar populations, chemical evolution, feedback processes, and reionization. The launch of the James Webb Space Telescope (JWST) and construction of the extremely large telescopes (ELTs) will soon usher in a new era, pushing the UV spectroscopic frontier to z~15-20. The success of these future endeavors hinges on a comprehensive understanding of the massive star populations and interstellar medium (ISM) gas conditions that power the observed UV spectral features. This requires the level of detail that is only possible in local galaxies.
The COS Legacy Spectroscopic SurveY (CLASSY) is a treasury survey that builds on the Hubble Space Telescope (HST) archive to construct the first high-quality, high-resolution far-ultraviolet (far-UV) spectral database of 45 nearby star-forming galaxies. The survey combines 177 orbits of archival observations with 135 new orbits (312 total orbits) of HST observations, or more than 600 total spectral images taken with the Cosmic Origins Spectrograph (COS). The CLASSY Treasury sample contains 45 star-forming galaxies selected to span similar properties as seen at high redshift, with a large range of masses, metallicities, ionization parameters, and densities, but enhanced star formation rates. The CLASSY spectral atlas contains a suite of emission and absorption features that enable investigations of the massive stellar population properties, the physical properties of large-scale outflows that regulate star formation, and the chemical abundance patterns of the gas and stars. Further, CLASSY will improve the diagnostic power of the rest-frame UV lines for use by future JWST/ELT surveys, providing a long-lasting legacy to the astronomical community for decades to come.
The main objective of CLASSY is to use FUV spectra to unify stellar and gas-phase physics, allowing a holistic understanding of massive stars as the drivers of the gaseous evolution of star-forming galaxies. Naturally, the pursuit of this goal will produce a number of additional HLSPs beyond the coadded spectra that will be useful to the astronomical community. Therefore, the enduring value and utility of CLASSY will reside in these state-of-the-art HLSPs products.
Summary of Planned CLASSY Deliverables:
-
CLASSY spectral atlas
-
Compiled ancillary data
-
CLASSY stellar continuum fits
-
Database of emission and absorption feature properties
-
Database of Lyα emission profile fits
-
Database of tailored photoionization models
-
Database of nebular properties
-
UV Diagnostic Tools
-
Database of tailored chemical evolution models
-
Database of feedback properties
-
Predictive tools of inferred LyC escape fractions %of ionizing photons
-
Improved stellar models and prescriptions
-
User-friendly CLASSY tutorials on interacting with and utilizing the HLSPs
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Target properties of the 45 CLASSY targets, including RA, Dec, redshift, stellar mass, star formation rate.
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View details on COS observations of CLASSY targets, including dataset names, exposure times, grating, wavelength coverage, and more.
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MAST tool to download CLASSY data, including subset selection based on target properties, observation parameters, or file type.
CLASSY Images
HST/COS NUV acquisition images for the CLASSY sample are shown in blue, overlaid on top of the red-yellow SDSS r-band images (when available, see Berg+2021 for exceptions). The 2.5” COS aperture used for the UV spectra are shown as blue circles, closely matching the SDSS 3” optical aperture in orange.
Pos: 00:36:53 -33:33:17
Redshift: 0.020598
log M★: 9.14 Msol
log SFR: 1.01 yr-1
Metallicity: 0.33 Z/Z☉
Pos: 01:27:36 -06:19:36
Redshift: 0.005400
log M★: 8.74 Msol
log SFR: -0.75 yr-1
Metallicity: 0.10 Z/Z☉
Pos: 01:44:41 +04:53:25
Redshift: 0.005200
log M★: 7.65 Msol
log SFR: -0.81 yr-1
Metallicity: 0.12 Z/Z☉
Pos: 03:37:44 -05:02:39
Redshift: 0.013520
log M★: 7.06 Msol
log SFR: -0.32 yr-1
Metallicity: 0.06 Z/Z☉
Pos: 04:05:20-36:48:59
Redshift: 0.002800
log M★: 6.61 Msol
log SFR: -1.81 yr-1
Metallicity: 0.02 Z/Z☉
Pos: 08:08:44+39:48:53
Redshift: 0.091230
log M★: 9.12 Msol
log SFR: 1.26 yr-1
Metallicity: 1.20 Z/Z☉
Pos: 08:23:55+28:06:22
Redshift: 0.047223
log M★: 9.38 Msol
log SFR: 1.48 yr-1
Metallicity: 0.39 Z/Z☉
Pos: 09:26:00+44:27:37
Redshift: 0.180667
log M★: 8.76 Msol
log SFR: 1.03 yr-1
Metallicity: 0.25 Z/Z☉
Pos: 09:34:02+55:14:28
Redshift: 0.002500
log M★: 6.27 Msol
log SFR: -1.52 yr-1
Metallicity: 0.02 Z/Z☉
Pos: 09:38:13+54:28:25
Redshift: 0.102102
log M★: 9.15 Msol
log SFR: 1.05 yr-1
Metallicity: 0.36 Z/Z☉
Pos: 09:40:13+29:35:30
Redshift: 0.001675
log M★: 6.71 Msol
log SFR: -2.01 yr-1
Metallicity: 0.09 Z/Z☉
Pos: 09:42:53+35:47:26
Redshift: 0.014857
log M★: 7.56 Msol
log SFR: -0.76 yr-1
Metallicity: 0.28 Z/Z☉
Pos: 09:44:02-00:38:32
Redshift: 0.004776
log M★: 6.83 Msol
log SFR: -0.78 yr-1
Metallicity: 0.14 Z/Z☉
Pos: 09:44:26+34:42:08
Redshift: 0.020046
log M★: 8.19 Msol
log SFR: -0.01 yr-1
Metallicity: 0.09 Z/Z☉
Pos: 10:16:24+37:54:46
Redshift: 0.003879
log M★: 6.72 Msol
log SFR: -1.17 yr-1
Metallicity: 0.07 Z/Z☉
Pos: 10:24:29+05:24:51
Redshift: 0.033191
log M★: 7.89 Msol
log SFR: 0.21 yr-1
Metallicity: 0.14 Z/Z☉
Pos: 10:25:48+36:22:58
Redshift: 0.126500
log M★: 8.87 Msol
log SFR: 1.04 yr-1
Metallicity: 0.28 Z/Z☉
Pos: 10:44:58+03:53:13
Redshift: 0.012870
log M★: 6.80 Msol
log SFR: -0.59 yr-1
Metallicity: 0.06 Z/Z☉
Pos: 11:05:08+44:44:47
Redshift: 0.021540
log M★: 8.98 Msol
log SFR: 0.69 yr-1
Metallicity: 0.35 Z/Z☉
Pos: 11:12:44+55:03:47
Redshift: 0.020598
log M★: 9.59 Msol
log SFR: 1.60 yr-1
Metallicity: 0.58 Z/Z☉
Pos: 11:19:34+51:30:12
Redshift: 0.004458
log M★: 6.77 Msol
log SFR: -1.58 yr-1
Metallicity: 0.08 Z/Z☉
Pos: 11:29:14+20:34:52
Redshift: 0.004703
log M★: 8.09 Msol
log SFR: -0.37 yr-1
Metallicity: 0.39 Z/Z☉
Pos: 11:32:03+57:22:36
Redshift: 0.005041
log M★: 7.31 Msol
log SFR: -1.07 yr-1
Metallicity: 0.08 Z/Z☉
Pos: 11:32:35+14:11:30
Redshift: 0.017637
log M★: 8.68 Msol
log SFR: 0.44 yr-1
Metallicity: 0.36 Z/Z☉
Pos: 11:44:22+40:12:21
Redshift: 0.126947
log M★: 9.89 Msol
log SFR: 1.51 yr-1
Metallicity: 0.55 Z/Z☉
Pos: 11:48:27+25:46:12
Redshift: 0.045117
log M★: 8.14 Msol
log SFR: 0.53 yr-1
Metallicity: 0.18 Z/Z☉
Pos: 11:50:03+15:01:23
Redshift: 0.002448
log M★: 6.84 Msol
log SFR: -1.33 yr-1
Metallicity: 0.28 Z/Z☉
Pos: 11:57:32+32:20:30
Redshift: 0.010970
log M★: 9.04 Msol
log SFR: 0.97 yr-1
Metallicity: 0.55 Z/Z☉
Pos: 12:00:33+13:43:08
Redshift: 0.066750
log M★: 8.12 Msol
log SFR: 0.75 yr-1
Metallicity: 0.37 Z/Z☉
Pos: 12:25:05+61:09:11
Redshift: 0.002341
log M★: 7.12 Msol
log SFR: -1.08 yr-1
Metallicity: 0.19 Z/Z☉
Pos: 12:53:06-03:12:59
Redshift: 0.022723
log M★: 7.65 Msol
log SFR: 0.56 yr-1
Metallicity: 0.23 Z/Z☉
Pos: 13:14:47+34:52:60
Redshift: 0.002885
log M★: 7.56 Msol
log SFR: -0.67 yr-1
Metallicity: 0.37 Z/Z☉
Pos: 13:23:48-01:32:52
Redshift: 0.022464
log M★: 6.31 Msol
log SFR: -0.72 yr-1
Metallicity: 0.10 Z/Z☉
Pos: 13:59:51+57:26:23
Redshift: 0.033829
log M★: 8.41 Msol
log SFR: 0.42 yr-1
Metallicity: 0.19 Z/Z☉
Pos: 14:16:13+12:23:40
Redshift: 0.123156
log M★: 9.59 Msol
log SFR: 1.57 yr-1
Metallicity: 0.69 Z/Z☉
Pos: 14:18:51+21:02:40
Redshift: 0.008550
log M★: 6.22 Msol
log SFR: -1.13 yr-1
Metallicity: 0.11 Z/Z☉
Pos: 14:28:56+16:53:39
Redshift: 0.181666
log M★: 9.56 Msol
log SFR: 1.22 yr-1
Metallicity: 0.44 Z/Z☉
Pos: 14:29:47+06:43:35
Redshift: 0.173502
log M★: 8.80 Msol
log SFR: 1.42 yr-1
Metallicity: 0.26 Z/Z☉
Pos: 14:44:11+42:37:36
Redshift: 0.002300
log M★: 6.48 Msol
log SFR: -1.94 yr-1
Metallicity: 0.09 Z/Z☉
Pos: 14:48:05-01:10:58
Redshift: 0.027412
log M★: 7.61 Msol
log SFR: 0.39 yr-1
Metallicity: 0.28 Z/Z☉
Pos: 15:21:42+07:59:22
Redshift: 0.094261
log M★: 9.00 Msol
log SFR: 0.95 yr-1
Metallicity: 0.42 Z/Z☉
Pos: 15:25:22+07:57:20
Redshift: 0.075791
log M★: 10.10 Msol
log SFR: 1.00 yr-1
Metallicity: 0.44 Z/Z☉
Pos: 15:45:43+08:58:01
Redshift: 0.037724
log M★: 7.52 Msol
log SFR: 0.37 yr-1
Metallicity: 0.11 Z/Z☉
Pos: 16:12:46+08:17:01
Redshift: 0.149143
log M★: 9.78 Msol
log SFR: 1.58 yr-1
Metallicity: 0.31 Z/Z☉
Data Products
CLASSY was constructed to provide a critical legacy data set to the community that can be used for many years to come. Under this umbrella, we provide the research community with several high level science products (HLSPs) for each CLASSY target, which are listed below. The primary deliverable is co-added UV spectra for each target (derived from CLASSY program GO-15840 and archival programs) at multiple spectral resolutions (see Berg+2021 and James+2021 for more details). For more information on data products and their respective file extensions, see the CLASSY Data Products page.
Data file naming convention:
hlsp_classy_hst_cos_<target>_multi_v1_<ext>
where:
- <target> = CLASSY target name
- <ext> = The high level science product file type extension
File types:
| _coadded.fits | Co-added UV spectra |
Data Access
CLASSY data products are available to download below. To download a tarball of HLSPs use the ‘Download All CLASSY data’ button. To download a subset of CLASSY products based on target properties, observation parameters, or file type, click the ‘MAST Query Tool’ button.
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A web-based interface for searching by mission-specific metadata. Also available through astroquery.mast.
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Download tarball of CLASSY HLSPs
You can also download the CLASSY catalog files directly in the table below:
| Catalog File Name | Description |
|---|---|
| hlsp_classy_hst_cos_emissionlines_multi_v1_cat.fits | Properties of the Gaussian emission line fits performed on CLASSY HLSP UV spectra and corresponding optical data, as detailed in Mingozzi et al. 2022. Full details of each column are provided in the FITS header. |
| hlsp_classy_hst_multi_nebular-properties_multi_v1_cat.fits | Properties of the nebular gas derived from CLASSY HLSP UV spectra, as detailed in Mingozzi et al. 2022. Full details of each column are provided in the FITS header. |
| hlsp_classy_hst_multi_lyman-alpha_multi_v1_cat.fits | Properties of the Lyman alpha features derived from CLASSY HLSP UV spectra, as detailed in Hu et al. 2023. Full details of each column are provided in the FITS header. |
| hlsp_classy_hst_multi_el-abundances_multi_v1_cat.fits | Chemical abundances derived from the emission lines in CLASSY HSLP 1 UV spectra and their corresponding optical spectra, as detailed in Arellano-Cordova et al. 2024. Full details of each column are provided in the FITS header. |
| hlsp_classy_hst_cos_outflows_multi_v1_cat.fits | Outflow properties derived using the CLASSY HSLP 1 UV spectra, as detailed in Xu et al. 2022. Full details of each column are provided in the FITS header. |
| hlsp_classy_hst_cos_galaxy-properties_multi_v1_cat.fits | General galaxy properties of the CLASSY sample, most of which were presented in Berg et al. 2022. Full details of each column are provided in the FITS header. |
Tutorials
Access Jupyter Notebook tutorials to interact with CLASSY HLSPs using Python. Click the links below to view the notebook in your browser, or download the notebook to your local computer and work through the steps on your own. Check back for additional notebook releases as more CLASSY HLSPs are released.
NOTE: This notebook was created and contributed by the CLASSY team. MAST makes this notebook available "as-is" and does not take responsibility for its maintenance.
Spectra
Interactive HST/COS CLASSY spectra, combining archival and new FUV G130M+G160M+G185M observations. Note that chip gaps are indicated by blank spaces and that Milky Way absorption features and geocoronal lines are still present. By zooming in on different regions of the spectrum, you will see different stellar, ISM, and nebular features. Some of the common features are marked by colored bands and are labeled when you hover. You can click on the different types of spectral features in the legend to turn them on and off.
Citations
If you use CLASSY data in a published work, please cite the following:
For any use of CLASSY data:
-
CLASSY Website
-
CLASSY I: Berg et al. 2022
-
CLASSY II: James et al. 2022
-
CLASSY III: Xu et al. 2022
-
CLASSY IV: Mingozzi et al. 2022
-
CLASSY V: Arellano-Córdova et al. 2022
-
CLASSY VI: Xu et al. 2023
-
CLASSY VII: Hu et al. 2023
-
CLASSY VIII: Mingozzi et al. 2024
For use of the coadded spectra HLSPs:
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CLASSY I: Berg et al. 2022
-
CLASSY II: James et al. 2022
For use of the stellar continuum fits HLSPs:
-
CLASSY III: Xu et al. 2022
-
CLASSY IV: Mingozzi et al. 2022
For use of the UV emission lines HLSPs:
-
CLASSY IV: Mingozzi et al. 2022
-
CLASSY VIII: Mingozzi et al. 2024
For use of the optical emission lines HLSPs:
-
CLASSY IV: Mingozzi et al. 2022
-
CLASSY V: Arellano-Córdova et al. 2022
For use of the LyA HLSPs:
-
CLASSY VII: Hu et al. 2023
For use of the nebular properties HLSPs:
-
CLASSY IV: Mingozzi et al. 2022
For use of the UV Diagnostic HLSPs:
-
CLASSY VIII: Mingozzi et al. 2024
For use of the photoionization model HLSPs:
-
TBD
For use of the chemical evolution HLSPs:
-
CLASSY IV: Arellano-Cordova et al. 2024
For use of the feedback properties HLSPs:
-
TBD
Note: These HLSP data products are licensed for use under CC BY 4.0.
References
List of CLASSY publications:
Acknowledgments
We extend our gratitude to the Lorentz Center for useful discussions during the “Characterizing Galaxies with Spectroscopy with a view for JWST” 2017 workshop that led to the formation of the CLASSY collaboration and survey.
We are sincerely grateful to the MAST team at STScI and their expertise in developing the MAST Search Tool for use with CLASSY data.