NUECDFSCAT - NuSTAR Survey of Extended Chandra Deep Field South (ECDF-S) Source Catalog

Overview

This table contains the source catalog from the Nuclear Spectroscopic Telescope Array (NuSTAR) survey of the Extended Chandra Deep Field South (hereafter, ECDFS), that is currently the deepest contiguous component of the NuSTAR extragalactic survey program. The survey covers the full ~30' x 30' area of this field to a maximum depth of ~360 ks (~220 ks when corrected for vignetting at 3 - 24 keV), reaching sensitivity limits of ~1.3 x 10^-14 erg/s/cm² (3 - 8 keV), ~3.4 x 10^-14 erg/s/cm² (8 - 24 keV), and ~3.0 x 10^-14 erg/s/cm² (3 - 24 keV). A total of 54 sources are detected over the full field, although five of these are found to lie below our significance threshold once contaminating flux from neighboring (i.e., blended) sources is taken into account. Of the remaining 49 that are significant, 19 are detected in the 8 - 24 keV band. The 8 - 24 to 3 - 8 keV band ratios of the 12 sources that are detected in both bands span the range 0.39 - 1.7, corresponding to a photon index (Gamma) range of about 0.5 - 2.3, with a median photon index of 1.70 +/- 0.52. The redshifts of the 49 sources in the main sample span the range z = 0.21 - 2.7, and their rest-frame 10 - 40 keV luminosities (derived from the observed 8 - 24 keV fluxes) span the range L_10-40keV ~ (0.7 - 300) x 10⁴³erg/s, sampling below the "knee" of the X-ray luminosity function out to z ~ 0.8 - 1. Finally, the authors identify one NuSTAR source that has neither a Chandra nor an XMM-Newton counterpart, but that shows evidence of nuclear activity at infrared wavelengths and thus may represent a genuine, new X-ray source detected by NuSTAR in the ECDFS.

The NuSTAR ECDFS survey consists of observations from two separate passes. Observations making up the first pass were taken between 2012 September and December, and those making up the second pass were taken roughly six months later, between 2013 March and April.

For their cosmological calculations, the authors adopt a Hubble constant H₀ of 71 km s^-1 Mpc ^-1, Omega_M of 0.27, and Omega_Lambda of 0.73.

Catalog Bibcode

2015ApJ...808..184M

References

The NuSTAR extragalactic surveys: initial results and catalog from the
Extended Chandra Deep Field-South.
    Mullaney J.R., Del-Moro A., Aird J., Alexander D.M., Civano F.M.,
    Hickox R.C., Lansbury G.B., Ajello M., Assef R., Ballantyne D.R.,
    Balokovic' M., Bauer F.E., Brandt W.N., Boggs S.E., Brightman M.,
    Christensen F.E., Comastri A., Craig W.W., Elvis M., Forster K., Gandhi P.,
    Grefenstette B.W., Hailey C.J., Harrison F.A., Koss M., Lamassa S.M.,
    Luo B., Madsen K.K., Puccetti S., Saez C., Stern D., Treister E.,
    Urry C.M., Wik D.R., Zappacosta L., Zhang W.
   <Astrophys. J., 808, 184 (2015)>
   =2015ApJ...808..184M    (SIMBAD/NED BibCode)

Provenance

This table was created by the HEASARC in September 2017 based on the CDS Catalog J/ApJ/808/184 file catalog.dat.

Parameters

Source_Number
The unique NuSTAR ECDFS identification number. Sources are listed in RA order. Multiple rows labeled with the same identifier correspond to where one NuSTAR source is matched to more than one Chandra source within 30 arcseconds of its position.

Name
The unique name of the NuSTAR source, following the IAU-approved naming convention for NuSTAR sources, viz., 'NuSTAR JHHMMSS-DDMM.m', where m is the truncated fraction of an arcminute in Dec for the arcseconds component.

RA
The Right Ascension of the NuSTAR source in the selected equinox. This was given in J2000.0 decimal degrees to a precision of 10^-6 degrees in the original table. The position is that of the pixel with the lowest false probability (P_False) value in the 20"-smoothed maps across all bands. The position is taken from the band showing the lowest P_False (i.e., the band in which the source is most significantly detected). All following photometry and so on is then performed at this one position in all three bands.

Dec
The Declination of the NuSTAR source in the selected equinox. This was given in J2000.0 decimal degrees to a precision of 10^-6 degrees in the original table. The position is that of the pixel with the lowest false probability (P_False) value in the 20"-smoothed maps across all bands. The position is taken from the band showing the lowest P_False (i.e., the band in which the source is most significantly detected). All following photometry and so on is then performed at this one position in all three bands.

LII
The Galactic Longitude of the NuSTAR source.

BII
The Galactic Latitude of the NuSTAR source.

SB_Detect_Flag
This flag parameter is set to 1 to indicate that the source is formally detected, i.e., meets the authors' final threshold of log (P_False <= -5.19, in the soft band (SB: 3 - 8 keV), else is set to 0.

HB_Detect_Flag
This flag parameter is set to 1 to indicate that the source is formally detected, i.e., meets the authors' final threshold of log (P_False <= -5.22, in the hard band (HB: 8 - 24 keV), else is set to 0.

FB_Detect_Flag
This flag parameter is set to 1 to indicate that the source is formally detected, i.e., meets the authors' final threshold of log (P_False <= -5.34, in the full band (FB: 3 - 24 keV), else is set to 0.

Dbld_SB_Detect_Flag
This flag parameter is set to 1 to indicate that the source is formally detected, i.e., meets the authors' final threshold of log (P_False <= -5.19, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper) in the soft band, else is set to 0.

Dbld_HB_Detect_Flag
This flag parameter is set to 1 to indicate that the source is formally detected, i.e., meets the authors' final threshold of log (P_False <= -5.22, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper in the hard band, else is set to 0.

Dbld_FB_Detect_Flag
This flag parameter is set to 1 to indicate that the source is formally detected, i.e., meets the authors' final threshold of log (P_False <= -5.34, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper in the full band, else is set to 0.

SB_Log_False_Prob
The logarithm of the undeblended false probability in the soft band based on a 20-arcsecond smoothing length, the smoothing length adopted to assess whether a source is significantly detected (see Section 2.3.1 of the reference paper).

HB_Log_False_Prob
The logarithm of the undeblended false probability in the hard band based on a 20-arcsecond smoothing length, the smoothing length adopted to assess whether a source is significantly detected (see Section 2.3.1 of the reference paper).

FB_Log_False_Prob
The logarithm of the undeblended false probability in the full band based on a 20-arcsecond smoothing length, the smoothing length adopted to assess whether a source is significantly detected (see Section 2.3.1 of the reference paper).

Dbld_SB_Log_False_Prob
The logarithm of the false probability in the soft band based on a 20-arcsecond smoothing length, the smoothing length adopted to assess whether a source is significantly detected (see Section 2.3.1 of the reference paper), post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_HB_Log_False_Prob
The logarithm of the false probability in the hard band based on a 20-arcsecond smoothing length, the smoothing length adopted to assess whether a source is significantly detected (see Section 2.3.1 of the reference paper), post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_FB_Log_False_Prob
The logarithm of the false probability in the full band based on a 20-arcsecond smoothing length, the smoothing length adopted to assess whether a source is significantly detected (see Section 2.3.1 of the reference paper), post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_Detect_Flag
This binary flag parameter is set to 1 to indicate that the NuSTAR source remains significant in at least one of the standard bands post-deblending, else is set to 0.

SB_Counts
The non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band.

SB_Counts_Error
The uncertainty in the non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band. Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

SB_Bck_Counts
The non-aperture-corrected background counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band.

SB_Net_Counts
The non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band.

SB_Net_Counts_Error
The uncertainty in the non-aperture-corrected net source counts based on 30" aperture photometry centered on the NuSTAR source position, in the soft band. Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

HB_Counts
The non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band.

HB_Counts_Error
The uncertainty in the non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band. Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

HB_Bck_Counts
The non-aperture-corrected background counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band.

HB_Net_Counts
The non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band.

HB_Net_Counts_Error
The uncertainty in the non-aperture-corrected net source counts based on 30" aperture photometry centered on the NuSTAR source position, in the hard band. Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

FB_Counts
The non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band.

FB_Counts_Error
The uncertainty in the non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band. Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

FB_Bck_Counts
The non-aperture-corrected background counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band.

FB_Net_Counts
The non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band.

FB_Net_Counts_Error
The uncertainty in the non-aperture-corrected net source counts based on 30" aperture photometry centered on the NuSTAR source position, in the full band. Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

Dbld_SB_Counts
The non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_SB_Bck_Counts
The non-aperture-corrected background counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_SB_Net_Counts
The non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_SB_Net_Counts_Error
The uncertainty in the non-aperture-corrected net source counts based on 30" aperture photometry centered on the NuSTAR source position, in the soft band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper). Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

Dbld_HB_Counts
The non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_HB_Bck_Counts
The non-aperture-corrected background counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_HB_Net_Counts
The non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_HB_Net_Counts_Error
The uncertainty in the non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper). Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

Dbld_FB_Counts
The non-aperture-corrected total source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_FB_Bck_Counts
The non-aperture-corrected background counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_FB_Net_Counts
The non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper).

Dbld_FB_Net_Counts_Error
The uncertainty in the non-aperture-corrected net source counts based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, post-deblending (i.e., after photon counts from neighboring sources have been excluded: see Section 2.3.2 of the reference paper). Errors are calculated using the Gehrels (1986, ApJ, 303, 336) formulation (see Section 2.3.2 of the reference paper). The authors indicate those sources where the photometric measurement in a given band is less than 3 sigma with a negative value for the error.

SB_Exposure
The mean effective exposure time in a 30"-aperture centered on the position of the source and in the soft band, in seconds.

HB_Exposure
The mean effective exposure time in a 30"-aperture centered on the position of the source and in the hard band, in seconds.

FB_Exposure
The mean effective exposure time in a 30"-aperture centered on the position of the source and in the full band, in seconds.

SB_Rate
The non-aperture-corrected total source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, calculated from the corresponding total counts and mean exposure time, in counts per second.

SB_Rate_Error
The uncertainty in the non-aperture-corrected total source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, calculated from the corresponding total counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

SB_Bck_Rate
The non-aperture-corrected background count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, calculated from the corresponding background counts and mean exposure time, in counts per second.

SB_Net_Rate
The non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, calculated from the corresponding total counts and mean exposure time, in counts per second.

SB_Net_Rate_Error
The uncertainty in the non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, calculated from the corresponding net counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

HB_Rate
The non-aperture-corrected total source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, calculated from the corresponding total counts and mean exposure time, in counts per second.

HB_Rate_Error
The uncertainty in the non-aperture-corrected total source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, calculated from the corresponding total counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

HB_Bck_Rate
The non-aperture-corrected background count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, calculated from the corresponding background counts and mean exposure time, in counts per second.

HB_Net_Rate
The non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, calculated from the corresponding net counts and mean exposure time, in counts per second.

HB_Net_Rate_Error
The uncertainty in the non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, calculated from the corresponding net counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

FB_Rate
The non-aperture-corrected total source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, calculated from the corresponding total counts and mean exposure time, in counts per second.

FB_Rate_Error
The uncertainty in the non-aperture-corrected total source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, calculated from the corresponding total counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

FB_Bck_Rate
The non-aperture-corrected background count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, calculated from the corresponding background counts and mean exposure time, in counts per second.

FB_Net_Rate
The non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, calculated from the corresponding net source counts and mean exposure time, in counts per second.

FB_Net_Rate_Error
The uncertainty in the non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, calculated from the corresponding net counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Dbld_SB_Net_Rate
The non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the soft band, calculated from the corresponding net source counts and mean exposure time and after the effects of source blending have been taken into account, in counts per second.

Dbld_SB_Net_Rate_Error
The uncertainty in the non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position and after the effects of source blending have been taken into account, in the soft band, calculated from the corresponding net counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Dbld_HB_Net_Rate
The non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the hard band, calculated from the corresponding net source counts and mean exposure time and after the effects of source blending have been taken into account, in counts per second.

Dbld_HB_Net_Rate_Error
The uncertainty in the non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position and after the effects of source blending have been taken into account, in the hard band, calculated from the corresponding net counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Dbld_FB_Net_Rate
The non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position, in the full band, calculated from the corresponding net source counts and mean exposure time and after the effects of source blending have been taken into account, in counts per second.

Dbld_FB_Net_Rate_Error
The uncertainty in the non-aperture-corrected net source count rate based on 30"-aperture photometry centered on the NuSTAR source position and after the effects of source blending have been taken into account, in the full band, calculated from the corresponding net counts uncertainty and mean exposure time, assuming there is zero error in the latter, in counts per second. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Mean_Band_Ratio
The mean 8-24 to 3-8 keV band ratio output by the BEHR algorithm. Because this algorithm is a Bayesian estimator, it calculates the band ratio probability distribution function and provides the mean, median, mode, and upper and lower 68th percentiles, which the authors report here.

Median_Band_Ratio
The median 8-24 to 3-8 keV band ratio output by the BEHR algorithm. Because this algorithm is a Bayesian estimator, it calculates the band ratio probability distribution function and provides the mean, median, mode, and upper and lower 68th percentiles, which the authors report here.

Mode_Band_Ratio
The mode of the 8-24 to 3-8 keV band ratio output by the BEHR algorithm. Because this algorithm is a Bayesian estimator, it calculates the band ratio probability distribution function and provides the mean, median, mode, and upper and lower 68th percentiles, which the authors report here.

Band_Ratio_Lower_Limit
The lower 68th percentile value of the 8-24 to 3-8 keV band ratio output by the BEHR algorithm. Because this algorithm is a Bayesian estimator, it calculates the band ratio probability distribution function and provides the mean, median, mode, and upper and lower 68th percentiles, which the authors report here.

Band_Ratio_Upper_Limit
The upper 68th percentile value of the 8-24 to 3-8 keV band ratio output by the BEHR algorithm. Because this algorithm is a Bayesian estimator, it calculates the band ratio probability distribution function and provides the mean, median, mode, and upper and lower 68th percentiles, which the authors report here.

Spectral_Index
The effective observed (i.e., non-absorption-corrected) photon index Gamma of the NuSTAR source derived from the mean band ratio (see Section 2.3.3 of the reference paper).

Spectral_Index_Lower_Lim
The lower limit to the effective observed (i.e., non-absorption-corrected) photon index Gamma of the NuSTAR source derived from the lower 68th percentile value of the 8-24 to 3-8 keV band ratio (see Section 2.3.3 of the reference paper).

Spectral_Index_Upper_Lim
The upper limit to the effective observed (i.e., non-absorption-corrected) photon index Gamma of the NuSTAR source derived from the upper 68th percentile value of the 8-24 to 3-8 keV band ratio (see Section 2.3.3 of the reference paper).

SB_Flux
The observed-frame,-aperture-corrected source flux in the soft band, in erg s^-1 cm^-2. Fluxes are derived from net count rates following the procedure outlined in Section 2.3.3 of the reference paper.

SB_Flux_Error
The uncertainty in the observed-frame,-aperture-corrected source flux in the soft band, in erg s^-1 cm^-2. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

HB_Flux
The observed-frame, aperture-corrected source flux in the hard band, in erg s^-1 cm^-2. Fluxes are derived from net count rates following the procedure outlined in Section 2.3.3 of the reference paper.

HB_Flux_Error
The uncertainty in the observed-frame, aperture-corrected source flux in the hard band, in erg s^-1 cm^-2. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

FB_Flux
The observed-frame, aperture-corrected source flux in the full band, in erg s^-1 cm^-2. Fluxes are derived from net count rates following the procedure outlined in Section 2.3.3 of the reference paper.

FB_Flux_Error
The uncertainty in the observed-frame, aperture-corrected source flux in the full band, in erg s^-1 cm^-2. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Dbld_SB_Flux
The observed-frame, aperture-corrected deblended source flux in the soft band, in erg s^-1 cm^-2. Fluxes are derived from the deblended net count rates following the procedure outlined in Section 2.3.3 of the reference paper.

Dbld_SB_Flux_Error
The uncertainty in the observed-frame, aperture-corrected deblended source flux in the soft band, in erg s^-1 cm^-2. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Dbld_HB_Flux
The observed-frame, aperture-corrected deblended source flux in the hard band, in erg s^-1 cm^-2. Fluxes are derived from the deblended net count rates following the procedure outlined in Section 2.3.3 of the reference paper.

Dbld_HB_Flux_Error
The uncertainty in the observed-frame, aperture-corrected deblended source flux in the hard band, in erg s^-1 cm^-2. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Dbld_FB_Flux
The observed-frame, aperture-corrected deblended source flux in the full band, in erg s^-1 cm^-2. Fluxes are derived from the deblended net count rates following the procedure outlined in Section 2.3.3 of the reference paper.

Dbld_FB_Flux_Error
The uncertainty in the observed-frame, aperture-corrected deblended source flux in the full band, in erg s^-1 cm^-2. Again, negative error values indicate those sources that are detected at less than 3 sigma in the given band.

Ctrprt_Cat_Code
A code indicating the catalog in which a Chandra or XMM-Newton counterpart to the NuSTAR source was identified as follows:

   Code:    Catalog

    L05:    Lehmer et al. (2005, ApJS, 161, 21);
    R13:    Ranalli et al. (2013, A&A, 555, A42);
    X11:    Xue et al. (2011, ApJS, 195, 10);

Ctrprt_Cat_Source_Number
A unique identifier of the matched Chandra or XMM-Newton source(s) from the catalog indicated in the ctrprt_cat_code parameter value ("recno" in the L05 and X11 catalogs; "ID210" in the R13 catalog). Where there is more than one match within 30 arcseconds of the NuSTAR position, the authors provide separate matches in additional table rows. Such multiple matches can therefore be identified by the replication of the NuSTAR index (the source_number parameter value).

Ctrprt_RA
The Right Ascension of the matched Chandra or XMM-Newton counterpart of the NuSTAR source in the selected equinox. This was given in J2000.0 decimal degrees to a precision of 10^-6 degrees in the original table.

Ctrprt_Dec
The Declination of the matched Chandra or XMM-Newton counterpart of the NuSTAR source in the selected equinox. This was given in J2000.0 decimal degrees to a precision of 10^-6 degrees in the original table.

Offset
The angular separation between the NuSTAR source and the matched Chandra or XMM-Newton source, in arcseconds.

Ctrprt_3_8_keV_Flux
The observed-frame 3 - 8 keV flux derived from the Chandra or XMM-Newton data, in erg s^-1 cm^-2, of the specified counterpart of the NuSTAR source. Note that these data are not provided in the catalogs of L05 (Lehmer et al. 2005, ApJS, 161, 21), R13 (Ranalli et al. 2013, A&A, 555, A42) or X11 (Xue et al. 2011, ApJS, 195, 10), because the 3 - 8 keV band is not a standard band in those papers. Instead, the 3 - 8 keV fluxes were calculated using ACIS Extract (Broos et al. 2010, ApJ, 714, 1582) with a simple power-law model.

Combnd_3_8_keV_Flux
The total, combined observed-frame 3 - 8 keV flux derived from the Chandra or XMM-Newton data, in erg s^-1 cm^-2, of all Chandra or XMM-Newton sources within 30 arcseconds of the NuSTAR source. Note that these data are not provided in the catalogs of L05 (Lehmer et al. 2005, ApJS, 161, 21), R13 (Ranalli et al. 2013, A&A, 555, A42) or X11 (Xue et al. 2011, ApJS, 195, 10), because the 3 - 8 keV band is not a standard band in those papers. Instead, the 3 - 8 keV fluxes were calculated using ACIS Extract (Broos et al. 2010, ApJ, 714, 1582) with a simple power-law model.

Spect_Redshift
The spectroscopic redshift of the matched Chandra (from Silverman et al.2010, ApJS, 191, 124) or XMM-Newton (from Ranalli et al. 2013, A&A, 555, A42) source, where available.

Phot_Redshift
The photometric redshift of the matched Chandra (from Silverman et al.2010, ApJS, 191, 124) or XMM-Newton (from Ranalli et al. 2013, A&A, 555, A42) source, where available.

Redshift
The adopted redshift used to calculate the rest-frame 10 - 40 keV luminosity of the NuSTAR source. In cases where both spectroscopic and photometric redshifts are available, the authors always adopt the spectroscopic redshift.

RF_10_40_keV_Lum
The derived rest-frame 10 - 40 keV luminosity of the NuSTAR source for sources where a redshift is available (either photometric or spectroscopic), in erg s^-1. Luminosities are calculated using the observed 8 - 24 keV band flux, and k-corrections are performed assuming a photon index of Gamma = 1.8 (see Section 2.3.4 of the reference paper). Where a NuSTAR source is matched to more than one Chandra or XMM-Newton source (and therefore may have more than one associated redshift), the authors provide the 10 - 40 keV luminosity assuming each of the various available redshifts.

RF_10_40_keV_Lum_Error
The uncertainty in the derived rest-frame 10 - 40 keV luminosity of the NuSTAR source for sources where a redshift is available (either photometric or spectroscopic), in erg s^-1. Errors are propagated directly from the errors on the 8 - 24 keV fluxes (i.e., the authors assume zero error in the redshift values). Again, negative error values indicate those sources that are detected at less than 3 sigma in a given band.

Source_Flag
A note concerning the source NuSTAR J033202-2746.7 for which this flag parameter is set to 'n'. In Del Moro et al. (2014, ApJ, 786, 16) this source is named NuSTAR J033202-2746.8. The name change is due to minor changes in the authors' data reduction since that publication. The authors note that these changes do not affect any of the science results in Del Moro et al. (2014).

Contact Person

Questions regarding the NUECDFSCAT database table can be addressed to the HEASARC Help Desk.

Page Author: Browse Software Development Team
Last Modified: Monday, 16-Sep-2024 17:32:22 EDT