J/A+A/676/A129 Gaia-ESO catalogue version 5.1 (Hourihane+, 2023)
The Gaia-ESO Survey:
Homogenisation of stellar parameters and elemental abundances.
Hourihane A., Francois P., Worley C.C., Magrini L., Gonneau A., Casey A.R.,
Gilmore G., Randich S., Sacco G.G., Recio-Blanco A., Korn A.J.,
Allende Prieto C., Smiljanic R., Blomme R., Bragaglia A., Walton N.A.,
Van Eck S., Bensby T., Lanzafame A., Frasca A., Franciosini E., Damiani F.,
Lind K., Bergemann M., Bonifacio P., Hill V., Lobel A., Montes D.,
Feuillet D.K., Tautvaisiene G., Guiglion G., Tabernero H.M.,
Gonzalez Hernandez J.I., Gebran M., Van der Swaelmen M., Mikolaitis S.,
Daflon S., Merle T., Morel T., Lewis J.R., Gonzalez Solares E.A.,
Murphy D.N.A., Jeffries R.D., Jackson R.J., Feltzing S., Prusti T.,
Carraro G., Biazzo K., Prisinzano L., Jofre P., Zaggia S., Drazdauskas A.,
Stonkute E., Marfil E., Jimenez-Esteban F., Mahy L.,
Gutierrez Albarran M.L., Berlanas S.R., Santos W., Morbidelli L., Spina L.,
Minkeviciute R.
<Astron. Astrophys. 676, A129 (2023)>
=2023A&A...676A.129H 2023A&A...676A.129H (SIMBAD/NED BibCode)
ADC_Keywords: Surveys ; Stars, fundamental ; Abundances ;
Effective temperatures ; Optical ; Radial velocities ;
Rotational velocities ; Equivalent widths
Keywords: stars: abundances - stars: fundamental parameters -
Galaxy: stellar content - methods: data analysis -
methods: statistical - techniques: spectroscopic
Abstract:
The Gaia-ESO Survey is a public spectroscopic survey that targeted
100000 stars covering all major components of the Milky Way from the
end of 2011 to 2018, delivering its final public release in May 2022.
Unlike other spectroscopic surveys, Gaia-ESO is the only survey that
observed stars across all spectral types with dedicated, specialised
analyses: from O all the way to K-M (≳3500K). The physics throughout
these stellar regimes varies significantly, which has previously
prohibited any detailed comparisons between stars of significantly
different types. In the final data release (internal data release 6)
of the Gaia-ESO Survey, we provide the final database containing a
large number of products, such as radial velocities, stellar
parameters and elemental abundances, rotational velocity, and also,
for example, activity and accretion indicators in young stars and
membership probability in star clusters for more than 114000 stars.
The spectral analysis is coordinated by a number of working groups
(WGs) within the survey, each specialised in one or more of the
various stellar samples. Common targets are analysed across WGs to
allow for comparisons (and calibrations) amongst instrumental setups
and spectral types. Here we describe the procedures employed to ensure
all survey results are placed on a common scale in order to arrive at
a single set of recommended results for use by all survey
collaborators. We also present some general quality and consistency
checks performed on the entirety of the survey results.
Description:
Final Catalogue of the Gaia-ESO public spectroscopic survey, also
available at https://www.eso.org/qi/catalogQuery/index/393
The GAIAESO DR5.1 catalogue contains radial and projected rotational
velocities, stellar parameters (effective temperature, surface gravity
and metallicity), abundances of several elements, parameters for
tracing accretion and activity in young stars, etc., of 114324 stars.
It greatly extends all previously published GAIAESO catalogues.
Please refer to the full data release description for further
information.
File Summary:
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FileName Lrecl Records Explanations
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ReadMe 80 . This file
catalog.dat 3407 114916 Gaia-ESO catalogue version 5.1
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See also:
https://www.eso.org/qi/catalogQuery/index/393 : Catalog Home Page
Byte-by-byte Description of file: catalog.dat
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Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 16 A16 --- Object GES object name from coordinates (OBJECT)
18- 29 A12 --- GESField GES field name from CASU (GES_FLD)
31- 47 A17 --- GESType GES Classification System of Target
Programmes (GES_TYPE)
49- 91 A43 --- RecSetup Grating setups used for deriving
recommended parameters (REC_SETUP)
93- 145 A53 --- RVSetup Grating setups used for deriving
radial velocities (RAVAIL_SETUP)
147- 195 A49 --- Setup Grating setups used for analysis (SETUP)
197- 200 A4 --- RecWG Working group deriving the recommended
parameters (REC_WG)
202- 225 F24.20 deg RAdeg Object Right Ascension (J2000) (RA)
227- 250 F24.20 deg DEdeg Object Declination (J2000) (DECLINATION)
252- 259 F8.2 --- SNR ? SNR of the spectrum used for deriving
radial velocities (SNR)
261- 269 F9.2 K Teff ? Effective Temperature (TEFF)
271- 278 F8.2 K e_Teff ? Error on Teff (E_TEFF)
280 I1 --- NNTefF [1/9]? Number of nodes that calculated
Teff (NN_TEFF)
282- 289 F8.2 K e2_Teff ? Error on Teff derived from the nodes
(ENN_TEFF)
291 I1 --- NNETeff [1/5]? Number of nodes used to calculate
e2_TEFF (NNE_TEFF)
293- 297 F5.2 [cm/s2] logg ? Log Surface Gravity(LOGG)
299- 303 F5.2 [cm/s2] e_logg ? Error on logg (E_LOGG)
305 I1 --- NNlogg [1/9]? Number of nodes that calculated
logg (NN_LOGG)
307- 313 F7.2 [cm/s2] e2_logg ? Error on LOGG derived from the nodes
(ENN_LOGG)
315 I1 --- NNElogg [1/5]? Number of nodes used to calculate
e2_logg (NNE_LOGG)
317- 321 F5.2 --- [Fe/H] ? Metallicity (FEH)
323- 327 F5.2 --- e_[Fe/H] ? Error on [Fe/H] (E_FEH)
329 I1 --- NN[Fe/H] [1/5]? Number of nodes that calculated
[Fe/H] (NN_FEH)
331- 336 F6.2 --- e2_[Fe/H] ? Error on [Fe/H] derived from the nodes
(ENN_FEH)
338 I1 --- NNE[Fe/H] [1/5]? Number of nodes used to calculate
e2_[Fe/H] (NNE_FEH)
340- 345 F6.2 km/s xi ? Microturbulent velocity (XI)
347- 351 F5.2 km/s e_xi ? Error on Xi (E_XI)
353 I1 --- NNxi [1/6]? Number of nodes that calculated Xi
(NN_XI)
355- 359 F5.2 km/s e2_xi ? Error on Xi derived from the nodes
(e2_Xi)
361 I1 --- NNEExi [1/3]? Number of nodes used to calculate
e2_Xi (NNE_XI)
363- 369 F7.2 km/s RV ? Radial Velocity (VRAD)
371- 376 F6.2 km/s e_RV ? Error on VRAD (E_VRAD)
378- 422 A45 --- r_RV Working group and/or team that derived
the radial velocities (ORIGIN_VRAD)
424- 428 F5.2 km/s ORV ? Offset applied to the measured radial
velocity (VRAD_OFFSET)
430 I1 --- FRV [1]? VRAD variability Flag
(1 = inconsistent VRAD, or null)
(VRAD_FLAG)
432- 434 I3 --- o_FRV [2/126]? Number of measurements used to
calculate FRV (NFVRADFLAG)
436- 442 F7.2 km/s vsini ? Projected rotational velocities (VSINI)
444- 449 F6.2 km/s e_vsini ? Error on vsini (E_VSINI)
451 I1 --- l_vsini [0/1]? Flag on vsini
(0=detection, 1=upper limit) (LIM_VSINI)
453- 457 F5.2 --- Li1 ? Neutral Lithium abundance (LI1)
459 I1 --- l_Li1 [0/1]? Flag on Li1 measurement type
(0=detection, 1=upper limit) (LIM_LI1)
461- 465 F5.2 --- e_Li1 ? Error on Li1 (E_LI1)
467- 471 F5.2 --- VeiL ? Veiling derived from spectral lines
(VEIL)
473- 477 F5.2 --- e_VeiL ? Error on on Veil (E_VEIL)
479- 491 F13.10 0.1pm EWLi ? Li(6708A) equivalent width (EW_LI)
493 I1 --- l_EWLi [0/1]? Flag on EWLi
(0=detection, 1=upper limit) (LIMEWLI)
495- 508 F14.11 0.1pm e_EWLi ? Error on EWLi (EEWLI)
510- 523 F14.11 0.1pm EWcLi ? Blends-corrected Li(6708A) equivalent
width (EWC_LI)
525 I1 --- l_EWcLi [0/1]? Flag on EWcLi
(0=detection, 1=upper limit) (LIMEWCLI)
527- 541 F15.12 0.1pm e_EWcLi ? Error on EWcLi (EEWCLI)
543- 549 F7.2 km/s Ha10 ? Halpha width at 10% of peak - accretion
(HA10)
551- 557 F7.2 km/s e_Ha10 ? Error on Ha10 (E_HA10)
559- 566 F8.3 0.1pm EWHaCHR ? Halpha EW: activity (EWHACHR)
568- 573 F6.3 0.1pm e_EWHaCHR ? Error on EWHaCHR (EEWHA_CHR)
575- 587 F13.2 mW/m2 FHaCHR ? Flux of Halpha : activity (FHA_CHR)
589- 600 F12.2 mW/m2 e_FHaCHR ? Error on FHACHR (EFHACHR)
602- 607 F6.2 0.1pm FWZI ? Full width at zero intensity of Halpha
(FWZI)
609- 613 F5.2 0.1pm e_FWZI ? Error on FWZI (E_FWZI)
615- 621 F7.3 0.1pm EWHbCHR ? Hbeta EW: activity (EWHBCHR)
623- 628 F6.3 0.1pm e_EWHbCHR ? Error on EWHbCHR (EEWHB_CHR)
630- 641 F12.2 mW/m2 FHbCHR ? Flux of Hbeta : activity (FHB_CHR)
643- 653 F11.2 mW/m2 e_FHbCHR ? Error on FHBCHR (EFHBCHR)
655- 661 F7.4 --- Gamma ? Gravity sensitive spectral in dex
(GAMMA)
663- 669 F7.4 --- e_Gamma ? Error on Gamma (E_GAMMA)
671- 856 A186 --- Pec Peculiarity Flag(s): WG14 Dict.1000-2999
(PECULI)
858-1621 A764 --- Tech Technical Flag(s): WG14 Dict.9000-15000
(TECH)
1623-1661 A39 --- SFlags Simplified Quality flags (SFLAGS)
1663-1669 F7.4 --- Mem3D ? Probability to be a member of a cluster
(MEM3D)
1671-1681 F11.7 --- He1 ? Neutral Helium abundance (HE1)
1683-1694 F12.9 --- e_He1 ? Error on He1 (E_HE1)
1696 I1 --- NNHe1 [1/2]? Number of nodes that calculated
He1 (NN_HE1)
1698-1709 F12.9 --- e2_He1 ? Error on He1 derived from the nodes
(ENN_HE1)
1711-1714 I4 --- NLHe1 ? Number of lines used to calculate He1
(NL_HE1)
1716-1719 A4 --- r_He1 Working group that calculated He1
(ORIGIN_HE1)
1721-1730 F10.6 --- C1 ? Neutral Carbon abundance (C1)
1732-1738 F7.4 --- e_C1 ? Error on C1 (E_C1)
1740 I1 --- NNC1 [1/3]? Number of nodes that calculated C1
(NN_C1)
1742-1748 F7.4 --- e2_C1 ? Error on C1 derived from the nodes
(ENN_C1)
1750 I1 --- NLC1 [1/2]? Number of lines used to calculate
C1 (NL_C1)
1752-1755 A4 --- r_C1 Working group that calculated C1
(ORIGIN_C1)
1757-1765 F9.6 --- C2 ? Ionised Carbon abundance (C2)
1767-1771 F5.2 --- e_C2 ? Error on C2 (E_C2)
1773 I1 --- NNC2 [1]? Number of nodes that calculated C2
(NN_C2)
1775-1779 F5.2 --- e2_C2 ? Error on C2 derived from the nodes
(ENN_C2)
1781-1784 I4 --- NLC2 ? Number of lines used to calculate C2
(NL_C2)
1786-1789 A4 --- r_C2 Working group that calculated C2
(ORIGIN_C2)
1791-1799 F9.6 --- C3 ? Doubly Ionised Carbon abundance (C3)
1801-1811 F11.8 --- e_C3 ? Error on C3 (E_C3)
1813 I1 --- NNC3 [1/2]? Number of nodes that calculated C3
(NN_C3)
1815-1826 F12.9 --- e2_C3 ? Error on C3 derived from the nodes
(ENN_C3)
1828-1831 I4 --- NLC3 ? Number of lines used to calculate C3
(NL_C3)
1833-1836 A4 --- r_C3 Working group that calculated C3
(ORIGIN_C3)
1838-1846 F9.6 --- CC2 ? Carbon abundance (C_C2)
1848-1859 F12.9 --- e_CC2 ? Error on CC2 (ECC2)
1861 I1 --- NNCC2 [1]? Number of nodes that calculated CC2
(NNCC2)
1863-1866 I4 --- e2_CC2 ? Error on CC2 derived from the nodes
(ENNCC2)
1868 I1 --- NLCC2 [1/2]? Number of lines used to calculate
CC2 (NLCC2)
1870-1873 A4 --- r_CC2 Working group that calculated C_C2
(ORIGINCC2)
1875-1884 F10.7 --- N2 ? Ionised Nitrogen abundance (N2)
1886-1895 F10.7 --- e_N2 ? Error on N2 (E_N2)
1897 I1 --- NNN2 [1]? Number of nodes that calculated N2
(NN_N2)
1899-1908 F10.7 --- e2_N2 ? Error on N2 derived from the nodes
(ENN_N2)
1910-1913 I4 --- NLN2 ? Number of lines used to calculate N2
(NL_N2)
1915-1918 A4 --- r_N2 Working group that calculated N2
(ORIGIN_N2)
1920-1923 F4.1 --- N3 ? Doubly Ionised Nitrogen abundance (N3)
1925-1928 I4 --- e_N3 ? Error on N3 (E_N3)
1930 I1 --- NNN3 [1]? Number of nodes that calculated N3
(NN_N3)
1932-1935 F4.1 --- e2_N3 ? Error on N3 derived from the nodes
(ENN_N3)
1937-1940 I4 --- NLN3 ? Number of lines used to calculate N3
(NL_N3)
1942-1945 A4 --- r_N3 Working group that calculated N3
(ORIGIN_N3)
1947-1956 F10.7 --- NCN ? Nitrogen abundance (N_CN)
1958-1969 F12.9 --- e_NCN ? Error on NCN (ENCN)
1971 I1 --- NNNCN [1]? Number of nodes that calculated NCN
(NNNCN)
1973-1976 I4 --- e2_NCN ? Error on NCN derived from the nodes
(ENNNCN)
1978 I1 --- NLNCN [1/3]? Number of lines used to calculate
NCN (NLNCN)
1980-1983 A4 --- r_NCN Working group that calculated NCN
(ORIGINNCN)
1985-1993 F9.6 --- O1 ? Neutral Oxygen abundance (O1)
1995-2006 F12.9 --- e_O1 ? Error on O1 (E_O1)
2008 I1 --- NNO1 [1]? Number of nodes that calculated O1
(NN_O1)
2010-2014 F5.2 --- e2_O1 ? Error on O1 derived from the nodes
(ENN_O1)
2016 I1 --- NLO1 [1]? Number of lines used to calculate O1
(NL_O1)
2018-2021 A4 --- r_O1 Working group that calculated O1
(ORIGIN_O1)
2023-2027 F5.2 --- O2 ? Ionised Oxigen abundance (O2)
2029-2033 F5.2 --- e_O2 ? Error on O2 (E_O2)
2035 I1 --- NNO2 [1]? Number of nodes that calculated O2
(NN_O2)
2037-2041 F5.2 --- e2_O2 ? Error on O2 derived from the nodes
(ENN_O2)
2043-2046 I4 --- NLO2 ? Number of lines used to calculate O2
(NL_O2)
2048-2051 A4 --- r_O2 Working group that calculated O2
(ORIGIN_O2)
2053-2062 F10.7 --- Ne1 ? Neutral Neon abundance (NE1)
2064-2074 F11.8 --- e_Ne1 ? Error on Ne1 (E_NE1)
2076 I1 --- NNNe1 [1]? Number of nodes that calculated Ne1
(NN_NE1)
2078-2088 F11.8 --- e2_Ne1 ? Error on Ne1 derived from the nodes
(ENN_NE1)
2090-2093 I4 --- NLNe1 ? Number of lines used to calculate Ne1
(NL_NE1)
2095-2098 A4 --- r_Ne1 Working group that calculated Ne1
(ORIGIN_NE1)
2100-2109 F10.7 --- Na1 ? Neutral Sodium abundance (NA1)
2111-2116 F6.3 --- e_Na1 ? Error on Na1 (E_NA1)
2118 I1 --- NNNa1 [1/4]? Number of nodes that calculated Na1
(NN_NA1)
2120-2123 I4 --- e2_Na1 ? Error on Na1 derived from the nodes
(ENN_NA1)
2125 I1 --- NLNa1 [1/5]? Number of lines used to calculate
Na1 (NL_NA1)
2127-2130 A4 --- r_Na1 Working group that calculated NA1
(ORIGIN_NA1)
2132-2142 F11.7 --- Mg1 ? Neutral Magnesium abundance (MG1)
2144-2155 F12.9 --- e_Mg1 ? Error on Mg1 (E_MG1)
2157 I1 --- NNMg1 [1/4]? Number of nodes that calculated
Mg1 (NN_MG1)
2159-2166 F8.4 --- e2_Mg1 ? Error on Mg1 derived from the nodes
(ENN_MG1)
2168 I1 --- NLMg1 [1/7]? Number of lines used to calculate
Mg1 (NL_MG1)
2170-2173 A4 --- r_Mg1 Working group that calculated Mg1
(ORIGIN_MG1)
2175-2184 F10.7 --- Mg2 ? Ionised Magnesium abundance (MG2)
2186-2196 F11.8 --- e_Mg2 ? Error on Mg2 (E_MG2)
2198 I1 --- NNMg2 [1]? Number of nodes that calculated Mg2
(NN_MG2)
2200-2210 F11.8 --- e2_Mg2 ? Error on Mg2 derived from the nodes
(ENN_MG2)
2212-2215 I4 --- NLMg2 ? Number of lines used to calculate Mg2
(NL_MG2)
2217-2220 A4 --- r_Mg2 Working group that calculated Mg2
(ORIGIN_MG2)
2222-2231 F10.7 --- Al1 ? Neutral Aluminium abundance (AL1)
2233-2243 F11.8 --- e_Al1 ? Error on Al1 (E_AL1)
2245 I1 --- NNAl1 [1/4]? Number of nodes that calculated Al1
(NN_AL1)
2247-2254 F8.4 --- e2_Al1 ? Error on Al1 derived from the nodes
(ENN_AL1)
2256 I1 --- NLAl1 [1/5]? Number of lines used to calculate
Al1 (NL_AL1)
2258-2261 A4 --- r_Al1 Working group that calculated Al1
(ORIGIN_AL1)
2263-2267 F5.2 --- Al2 ? Ionised Aluminium abundance (AL2)
2269-2273 F5.2 --- e_Al2 ? Error on Al2 (E_AL2)
2275 I1 --- NNAl2 [1]? Number of nodes that calculated Al2
(NN_AL2)
2277-2281 F5.2 --- e2_Al2 ? Error on Al2 derived from the nodes
(ENN_AL2)
2283-2286 I4 --- NLAl2 ? Number of lines used to calculate Al2
(NL_AL2)
2288-2291 A4 --- r_Al2 Working group that calculated Al2
(ORIGIN_AL2)
2293-2303 F11.7 --- Si1 ? Neutral Silicon abundance (SI1)
2305-2317 F13.9 --- e_Si1 ? Error on Si1 (E_SI1)
2319 I1 --- NNSi1 [1/4]? Number of nodes that calculated
Si1 (NN_SI1)
2321-2328 F8.4 --- e2_Si1 ? Error on Si1 derived from the nodes
(ENN_SI1)
2330-2331 I2 --- NLSi1 [1/13]? Number of lines used to calculate
Si1 (NL_SI1)
2333-2336 A4 --- r_Si1 Working group that calculated SI1
(ORIGIN_SI1)
2338-2342 F5.2 --- Si2 ? Ionised Silicon abundance (SI2)
2344-2349 F6.3 --- e_Si2 ? Error on Si2 (E_SI2)
2351 I1 --- NNSi2 [1/3]? Number of nodes that calculated Si2
(NN_SI2)
2353-2357 F5.2 --- e2_Si2 ? Error on Si2 derived from the nodes
(ENN_SI2)
2359 I1 --- NLSi2 [1/2]? Number of lines used to calculate
Si2 (NL_SI2)
2361-2364 A4 --- r_Si2 Working group that calculated Si2
(ORIGIN_SI2)
2366-2375 F10.7 --- Si3 ? Doubly Ionised Silicon abundance (SI3)
2377-2387 F11.8 --- e_Si3 ? Error on Si3 (E_SI3)
2389 I1 --- NNSi3 [1]? Number of nodes that calculated Si3
(NN_SI3)
2391-2401 F11.8 --- e2_Si3 ? Error on Si3 derived from the nodes
(ENN_SI3)
2403-2406 I4 --- NLSi3 ? Number of lines used to calculate Si3
(NL_SI3)
2408-2411 A4 --- r_Si3 Working group that calculated Si3
(ORIGIN_SI3)
2413-2417 F5.2 --- Si4 ? Triply Ionised Silicon abundance (SI4)
2419-2422 F4.1 --- e_Si4 ? Error on Si4 (E_SI4)
2424 I1 --- NNSi4 [1]? Number of nodes that calculated Si4
(NN_SI4)
2426-2429 F4.1 --- e2_Si4 ? Error on Si4 derived from the nodes
(ENN_SI4)
2431-2434 I4 --- NLSi4 ? Number of lines used to calculate Si4
(NL_SI4)
2436-2439 A4 --- r_Si4 Working group that calculated Si4
(ORIGIN_SI4)
2441-2448 F8.4 --- S1 ? Neutral Sulfur abundance (S1)
2450-2456 F7.4 --- e_S1 ? Error on S1 (E_S1)
2458 I1 --- NNS1 [1]? Number of nodes that calculated S1
(NN_S1)
2460-2466 F7.4 --- e2_S1 ? Error on S1 derived from the nodes
(ENN_S1)
2468 I1 --- NLS1 [1/5]? Number of lines used to calculate
S1 (NL_S1)
2470-2473 A4 --- r_S1 Working group that calculated S1
(ORIGIN_S1)
2475-2485 F11.7 --- Ca1 ? Neutral Calcium abundance (CA1)
2487-2493 F7.4 --- e_Ca1 ? Error on Ca1 (E_CA1)
2495 I1 --- NNCa1 [1/4]? Number of nodes that calculated Ca1
(NN_CA1)
2497-2503 F7.4 --- e2_Ca1 ? Error on Ca1 derived from the nodes
(ENN_CA1)
2505-2506 I2 --- NLCa1 [1/25]? Number of lines used to calculate
Ca1 (NL_CA1)
2508-2511 A4 --- r_Ca1 Working group that calculated Ca1
(ORIGIN_CA1)
2513-2522 F10.7 --- Ca2 ? Ionised Calcium abundance (CA2)
2524-2530 F7.4 --- e_Ca2 ? Error on Ca2 (E_CA2)
2532 I1 --- NNCa2 [1/2]? Number of nodes that calculated Ca2
(NN_CA2)
2534-2540 F7.4 --- e2_Ca2 ? Error on Ca2 derived from the nodes
(ENN_CA2)
2542 I1 --- NLCa2 [1/3]? Number of lines used to calculate
Ca2 (NL_CA2)
2544-2547 A4 --- r_Ca2 Working group that calculated Ca2
(ORIGIN_CA2)
2549-2558 F10.7 --- Sc1 ? Neutral Scandium abundance (SC1)
2560-2565 F6.3 --- e_Sc1 ? Error on Sc1 (E_SC1)
2567 I1 --- NNSc1 [1/2]? Number of nodes that calculated Sc1
(NN_SC1)
2569-2572 I4 --- e2_Sc1 ? Error on Sc1 derived from the nodes
(ENN_SC1)
2574 I1 --- NLSc1 [1/3]? Number of lines used to calculate
Sc1 (NL_SC1)
2576-2579 A4 --- r_Sc1 Working group that calculated Sc1
(ORIGIN_SC1)
2581-2587 F7.4 --- Sc2 ? Ionised Scandium abundance (SC2)
2589-2595 F7.4 --- e_Sc2 ? Error on Sc2 (E_SC2)
2597 I1 --- NNSc2 [1/3]? Number of nodes that calculated Sc2
(NN_SC2)
2599-2605 F7.4 --- e2_Sc2 ? Error on Sc2 derived from the nodes
(ENN_SC2)
2607-2608 I2 --- NLSc2 [1/12]? Number of lines used to calculate
Sc2 (NL_SC2)
2610-2613 A4 --- r_Sc2 Working group that calculated Sc2
(ORIGIN_SC2)
2615-2624 F10.7 --- Ti1 ? Neutral Titanium abundance (TI1)
2626-2638 F13.9 --- e_Ti1 ? Error on Ti1 (E_TI1)
2640 I1 --- NNTi1 [1/4]? Number of nodes that calculated Ti1
(NN_TI1)
2642-2649 F8.4 --- e2_Ti1 ? Error on Ti1 derived from the nodes
(ENN_TI1)
2651-2652 I2 --- NLTi1 [1/59]? Number of lines used to calculate
Ti1 (NL_TI1)
2654-2657 A4 --- r_Ti1 Working group that calculated Ti1
(ORIGIN_TI1)
2659-2665 F7.4 --- Ti2 ? Ionised Titanium abundance (TI2)
2667-2678 F12.9 --- e_Ti2 ? Error on TI2 (E_TI2)
2680 I1 --- NNTi2 [1/4]? Number of nodes that calculated Ti2
(NN_TI2)
2682-2688 F7.4 --- e2_Ti2 ? Error on Ti2 derived from the nodes
(ENN_TI2)
2690-2691 I2 --- NLTi2 [1/18]? Number of lines used to calculate
Ti2 (NL_TI2)
2693-2696 A4 --- r_Ti2 Working group that calculated Ti2
(ORIGIN_TI2)
2698-2707 F10.7 --- V1 ? Neutral Vanadium abundance (V1)
2709-2720 F12.9 --- e_V1 ? Error on V1 (E_V1)
2722 I1 --- NNV1 [1/2]? Number of nodes that calculated V1
(NN_V1)
2724-2730 F7.4 --- e2_V1 ? Error on V1 derived from the nodes
(ENN_V1)
2732-2733 I2 --- NLV1 [1/25]? Number of lines used to calculate
V1 (NL_V1)
2735-2738 A4 --- r_V1 Working group that calculated V1
(ORIGIN_V1)
2740-2746 F7.4 --- Cr1 ? Neutral Cromium abundance (CR1)
2748-2759 F12.9 --- e_Cr1 ? Error on Cr1 (E_CR1)
2761 I1 --- NNCr1 [1/4]? Number of nodes that calculated Cr1
(NN_CR1)
2763-2769 F7.4 --- e2_Cr1 ? Error on Cr1 derived from the nodes
(ENN_CR1)
2771-2772 I2 --- NLCr1 [1/29]? Number of lines used to calculate
Cr1 (NL_CR1)
2774-2777 A4 --- r_Cr1 Working group that calculated Cr1
(ORIGIN_CR1)
2779-2788 F10.7 --- Cr2 ? Ionised Cromium abundance (CR2)
2790-2794 F5.2 --- e_Cr2 ? Error on Cr2 (E_CR2)
2796 I1 --- NNCr2 [1/3]? Number of nodes that calculated Cr2
(NN_CR2)
2798-2801 I4 --- e2_Cr2 ? Error on Cr2 derived from the nodes
(ENN_CR2)
2803-2804 I2 --- NLCr2 [1/10]? Number of lines used to calculate
Cr2 (NL_CR2)
2806-2809 A4 --- r_Cr2 Working group that calculated Cr2
(ORIGIN_CR2)
2811-2817 F7.4 --- Mn1 ? Neutral Manganese abundance (MN1)
2819-2825 F7.4 --- e_Mn1 ? Error on Mn1 (E_MN1)
2827 I1 --- NNMn1 [1/3]? Number of nodes that calculated Mn1
(NN_MN1)
2829-2835 F7.4 --- e2_Mn1 ? Error on Mn1 derived from the nodes
(ENN_MN1)
2837-2838 I2 --- NLMn1 [1/10]? Number of lines used to calculate
Mn1 (NL_MN1)
2840-2843 A4 --- r_Mn1 Working group that calculated Mn1
(ORIGIN_MN1)
2845-2854 F10.7 --- Co1 ? Neutral Cobalt abundance (CO1)
2856-2862 F7.4 --- e_Co1 ? Error on Co1 (E_CO1)
2864 I1 --- NNCo1 [1/4]? Number of nodes that calculated Co1
(NN_CO1)
2866-2872 F7.4 --- e2_Co1 ? Error on Co1 derived from the nodes
(ENN_CO1)
2874-2875 I2 --- NLCo1 [1/24]? Number of lines used to calculate
Co1 (NL_CO1)
2877-2880 A4 --- r_Co1 Working group that calculated Co1
(ORIGIN_CO1)
2882-2891 F10.7 --- Ni1 ? Neutral Nickel abundance (NI1)
2893-2905 F13.9 --- e_Ni1 ? Error on Ni1 (E_NI1)
2907 I1 --- NNNi1 [1/4]? Number of nodes that calculated Ni1
(NN_NI1)
2909-2916 F8.4 --- e2_Ni1 ? Error on Ni1 derived from the nodes
(ENN_NI1)
2918-2919 I2 --- NLNi1 [1/37]? Number of lines used to calculate
Ni1 (NL_NI1)
2921-2924 A4 --- r_Ni1 Working group that calculated Ni1
(ORIGIN_NI1)
2926-2935 F10.7 --- Cu1 ? Neutral Copper abundance (CU1)
2937-2948 F12.9 --- e_Cu1 ? Error on Cu1 (E_CU1)
2950 I1 --- NNCu1 [1/3]? Number of nodes that calculated Cu1
(NN_CU1)
2952-2955 I4 --- e2_Cu1 ? Error on Cu1 derived from the nodes
(ENN_CU1)
2957 I1 --- NLCu1 [1/5]? Number of lines used to calculate
Cu1 (NL_CU1)
2959-2962 A4 --- r_Cu1 Working group that calculated Cu1
(ORIGIN_CU1)
2964-2973 F10.7 --- Zn1 ? Neutral Zinc abundance (ZN1)
2975-2979 F5.2 --- e_Zn1 ? Error on Zn1 (E_ZN1)
2981 I1 --- NNZn1 [1/3]? Number of nodes that calculated Zn1
(NN_ZN1)
2983-2986 I4 --- e2_Zn1 ? Error on Zn1 derived from the nodes
(ENN_ZN1)
2988 I1 --- NLZn1 [1]? Number of lines used to calculate Zn1
(NL_ZN1)
2990-2993 A4 --- r_Zn1 Working group that calculated Zn1
(ORIGIN_ZN1)
2995-3000 F6.3 --- Sr1 ? Neutral Strontium abundance (SR1)
3002-3008 F7.4 --- e_Sr1 ? Error on Sr1 (E_SR1)
3010 I1 --- NNSr1 [1]? Number of nodes that calculated Sr1
(NN_SR1)
3012-3018 F7.4 --- e2_Sr1 ? Error on Sr1 derived from the nodes
(ENN_SR1)
3020 I1 --- NLSr1 [1/2]? Number of lines used to calculate
Sr1 (NL_SR1)
3022-3025 A4 --- r_Sr1 Working group that calculated Sr1
(ORIGIN_SR1)
3027-3037 F11.8 --- Y2 ? Ionised Yttrium abundance (Y2)
3039-3045 F7.4 --- e_Y2 ? Error on Y2 (E_Y2)
3047 I1 --- NNY2 [1/4]? Number of nodes that calculated Y2
(NN_Y2)
3049-3055 F7.4 --- e2_Y2 ? Error on Y2 derived from the nodes
(ENN_Y2)
3057-3058 I2 --- NLY2 [1/12]? Number of lines used to calculate
Y2 (NL_Y2)
3060-3063 A4 --- r_Y2 Working group that calculated Y2
(ORIGIN_Y2)
3065-3074 F10.7 --- Zr1 ? Neutral Zirconium abundance (ZR1)
3076-3087 F12.9 --- e_Zr1 ? Error on Zr1 (E_ZR1)
3089 I1 --- NNZr1 [1/4]? Number of nodes that calculated Zr1
(NN_ZR1)
3091-3097 F7.4 --- e2_Zr1 ? Error on Zr1 derived from the nodes
(ENN_ZR1)
3099 I1 --- NLZr1 [1/7]? Number of lines used to calculate
Zr1 (NL_ZR1)
3101-3104 A4 --- r_Zr1 Working group that calculated Zr1
(ORIGIN_ZR1)
3106-3110 F5.2 --- Zr2 ? Ionised Zirconium abundance (ZR2)
3112-3116 F5.2 --- e_Zr2 ? Error on Zr2 (E_ZR2)
3118 I1 --- NNZr2 [1]? Number of nodes that calculated Zr2
(NN_ZR2)
3120-3123 I4 --- e2_Zr2 ? Error on Zr2 derived from the nodes
(ENN_ZR2)
3125 I1 --- NLZr2 [1/3]? Number of lines used to calculate
Zr2 (NL_ZR2)
3127-3130 A4 --- r_Zr2 Working group that calculated Zr2
(ORIGIN_ZR2)
3132-3138 F7.4 --- Mo1 ? Neutral Molybdenum abundance (MO1)
3140-3146 F7.4 --- e_Mo1 ? Error on Mo1 (E_MO1)
3148 I1 --- NNMo1 [1]? Number of nodes that calculated Mo1
(NN_MO1)
3150-3156 F7.4 --- e2_Mo1 ? Error on Mo1 derived from the nodes
(ENN_MO1)
3158 I1 --- NLMo1 [1/4]? Number of lines used to calculate
Mo1 (NL_MO1)
3160-3163 A4 --- r_Mo1 Working group that calculated Mo1
(ORIGIN_MO1)
3165-3174 F10.7 --- Ba2 ? Ionised Barium abundance (BA2)
3176-3182 F7.4 --- e_Ba2 ? Error on Ba2 (E_BA2)
3184 I1 --- NNBa2 [1/4]? Number of nodes that calculated
Ba2 (NN_BA2)
3186-3192 F7.4 --- e2_Ba2 ? Error on Ba2 derived from the nodes
(ENN_BA2)
3194 I1 --- NLBa2 [1/2]? Number of lines used to calculate
Ba2 (NL_BA2)
3196-3199 A4 --- r_Ba2 Working group that calculated Ba2
(ORIGIN_BA2)
3201-3211 F11.8 --- La2 ? Ionised Lanthanum abundance (LA2)
3213-3219 F7.4 --- e_La2 ? Error on La2 (E_LA2)
3221 I1 --- NNLa2 [1]? Number of nodes that calculated La2
(NN_LA2)
3223-3229 F7.4 --- e2_La2 ? Error on La2 derived from the nodes
(ENN_LA2)
3231 I1 --- NLLa2 [1/2]? Number of lines used to calculate
La2 (NL_LA2)
3233-3236 A4 --- r_La2 Working group that calculated La2
(ORIGIN_LA2)
3238-3248 F11.8 --- Ce2 ? Ionised Cerium abundance (CE2)
3250-3255 F6.3 --- e_Ce2 ? Error on Ce2 (E_CE2)
3257 I1 --- NNCe2 [1]? Number of nodes that calculated Ce2
(NN_CE2)
3259-3262 I4 --- e2_Ce2 ? Error on Ce2 derived from the nodes
(ENN_CE2)
3264 I1 --- NLCe2 [1/2]? Number of lines used to calculate
Ce2 (NL_CE2)
3266-3269 A4 --- r_Ce2 Working group that calculated Ce2
(ORIGIN_CE2)
3271-3281 F11.8 --- Pr2 ? Ionised Praseodymium abundance (PR2)
3283-3287 F5.2 --- e_Pr2 ? Error on Pr2 (E_PR2)
3289 I1 --- NNPr2 [1]? Number of nodes that calculated Pr2
(NN_PR2)
3291-3294 I4 --- e2_Pr2 ? Error on Pr2 derived from the nodes
(ENN_PR2)
3296 I1 --- NLPr2 [1/3]? Number of lines used to calculate
Pr2 (NL_PR2)
3298-3301 A4 --- r_Pr2 Working group that calculated Pr2
(ORIGIN_PR2)
3303-3313 F11.8 --- Nd2 ? Ionised Neodymium abundance (ND2)
3315-3321 F7.4 --- e_Nd2 ? Error on Nd2 (E_ND2)
3323 I1 --- NNNd2 [1/4]? Number of nodes that calculated Nd2
(NN_ND2)
3325-3331 F7.4 --- e2_Nd2 ? Error on Nd2 derived from the nodes
(ENN_ND2)
3333-3334 I2 --- NLNd2 [1/22]? Number of lines used to calculate
Nd2 (NL_ND2)
3336-3339 A4 --- r_Nd2 Working group that calculated Nd2
(ORIGIN_ND2)
3341-3345 F5.2 --- Sm2 ? Ionised Samarium abundance (SM2)
3347-3351 F5.2 --- e_Sm2 ? Error on Sm2 (E_SM2)
3353 I1 --- NNSm2 [1]? Number of nodes that calculated Sm2
(NN_SM2)
3355-3358 I4 --- e2_Sm2 ? Error on Sm2 derived from the nodes
(ENN_SM2)
3360 I1 --- NLSm2 [1/2]? Number of lines used to calculate
Sm2 (NL_SM2)
3362-3365 A4 --- r_Sm2 Working group that calculated Sm2
(ORIGIN_SM2)
3367-3378 F12.9 --- Eu2 ? Ionised Europium abundance (EU2)
3380-3390 F11.8 --- e_Eu2 ? Error on Eu2 (E_EU2)
3392 I1 --- NNEu2 [1/2]? Number of nodes that calculated Eu2
(NN_EU2)
3394-3400 F7.4 --- e2_Eu2 ? Error on Eu2 derived from the nodes
(ENN_EU2)
3402 I1 --- NLEu2 [1/2]? Number of lines used to calculate
Eu2 (NL_EU2)
3404-3407 A4 --- r_Eu2 Working group that calculated Eu2
(ORIGIN_EU2)
--------------------------------------------------------------------------------
Acknowledgements:
Laura Magrini, laura.magrini(at)inaf.it
(End) Patricia Vannier [CDS] 16-Aug-2023