EzPadova configuration file#

This file contains the configuration for the EzPadova package. It is generated automatically by the package and should not be modified manually.

All detailed description of the parameters can be found on the CMD webpage.

Track flavors `track_parsec`#

value	description
parsec_CAF09_v2.0	PARSEC version 2.0 Available for 0.002≤ Z ≤0.03 (-0.89≤[M/H]≤+0.34), with rotation turned off for the lowest masses. The 0.004≤ Z ≤0.017 tracks are described in Nguyen et al. (2022) ; outside this range we are using preliminary tracks from Nguyen et al. (in preparation). with ωi= (in the range 0≤ωi≤0.99). Notes: this choice will (1) turn off features like the star-by-star extinction, the Reimers-resettable mass loss, etc. and (2) change the output format.
parsec_CAF09_v1.2S	PARSEC version 1.2S Available for 0.0001≤ Z ≤0.06 (-2.2≤[M/H]≤+0.5); for 0.0001≤ Z ≤0.02 the mass range is 0.1≤ M/M ☉<350; for 0.03≤ Z ≤0.04 0.1≤ M/M ☉<150, and for Z =0.06 0.1≤ M/M ☉<20 (cf. Tang et al. (2014) for 0.001≤ Z ≤0.004, and Chen et al. (2015) for other Z ). With revised and calibrated surface boundary conditions in low-mass dwarfs ( Chen et al. (2014) ).
parsec_CAF09_v1.1	PARSEC version 1.1 Available for 0.0001≤Z≤0.06 (-2.2≤[M/H]≤+0.5), in the range 0.1≤M/M☉<12. With revised diffusion+overshooting in low-mass stars, and improvements in interpolation scheme.
parsec_CAF09_v1.0	PARSEC version 1.0 Available for 0.0005≤Z≤0.07 (-1.5≤[M/H]≤+0.6), in the range 0.1≤M/M☉<12.

Track Rotation `track_omegai`#

only available for PARSEC 2.0

value	description
0.00	(in the range 0≤ω i ≤0.99). Notes: this choice will (1) turn off features like the star-by-star extinction, the Reimers-resettable mass loss, etc. and (2) change the output format.

Track COLIBRI `track_colibri`#

only available for PARSEC 1.2S

value	description
parsec_CAF09_v1.2S_S_LMC_08_web	COLIBRI S_37 ( Pastorelli et al. (2020) ) for 0.008≤ Z ≤0.02, + COLIBRI S_35 ( Pastorelli et al. (2019) ) for 0.0005≤ Z ≤0.006 + COLIBRI PR16 ( Marigo et al. (2013) , Rosenfield et al. (2016) ) for Z ≤0.0002 and Z ≥0.03 )
parsec_CAF09_v1.2S_S35	COLIBRI S_35 ( Pastorelli et al. (2019) ) (limited to 0.0005≤Z≤0.03)
parsec_CAF09_v1.2S_S07	COLIBRI S_07 ( Pastorelli et al. (2019) ) (limited to 0.0005≤Z≤0.03)
parsec_CAF09_v1.2S_NOV13	COLIBRI PR16 ( Marigo et al. (2013) and Rosenfield et al. (2016) ) (limited to 0.0001≤Z≤0.06)
no	No (no limitation in Z)

additional parameters#

parameter	value	description
`eta_reimers`	0.2
`n_inTPC`	10	as detailed in Marigo et al. (2017)

Photometric systems `photsys_file`#

value	description
YBC_2mass_spitzer	2MASS + Spitzer (IRAC+MIPS)
YBC_2mass_spitzer_wise	2MASS + Spitzer (IRAC+MIPS) + WISE
YBC_2mass	2MASS JHKs
YBC_ogle_2mass_spitzer	OGLE + 2MASS + Spitzer (IRAC+MIPS)
YBC_ubvrijhk	UBVRIJHK (cf. Maiz-Apellaniz 2006 + Bessell 1990)
YBC_bessell	UBVRIJHKLMN (cf. Bessell 1990 + Bessell & Brett 1988)
YBC_akari	AKARI
YBC_batc	BATC
YBC_megacam_wircam	CFHT Megacam + Wircam (all ABmags)
YBC_wircam	CFHT Wircam
YBC_megacam_post2014	CFHT/Megacam post-2014 u*g’r’i’z’
YBC_megacam	CFHT/Megacam pre-2014 u*g’r’i’z’
YBC_ciber	CIBER
YBC_clue_galex	CLUE + GALEX (Vegamags)
YBC_CSST	CSST (ABmags)
YBC_decam	DECAM (ABmags)
YBC_denis	DENIS
YBC_dmc14	DMC 14 filters
YBC_dmc15	DMC 15 filters
YBC_eis	ESO/EIS (WFI UBVRIZ + SOFI JHK)
YBC_wfi	ESO/WFI
YBC_wfi2	ESO/WFI2
YBC_euclid_nisp	Euclid VIS+NISP (ABmags)
YBC_galex_sloan	GALEX FUV+NUV (Vegamag) + SDSS ugriz (ABmags)
YBC_galex	GALEX FUV+NUV + Johnson’s UBV (Maiz-Apellaniz version), all Vegamags
YBC_gaia_tycho2_2mass	Gaia DR1 + Tycho2 + 2MASS (all Vegamags)
YBC_gaiaDR2_tycho2_2mass	Gaia DR2 + Tycho2 + 2MASS (all Vegamags, Gaia passbands from Evans et al. 2018)
YBC_gaiaDR2weiler_tycho2_2mass	Gaia DR2 + Tycho2 + 2MASS (all Vegamags, Gaia passbands from Weiler 2018)
YBC_gaiaEDR3	Gaia EDR3 (all Vegamags, Gaia passbands from ESA/Gaia website)
YBC_gaia	Gaia’s DR1 G, G_BP and G_RP (Vegamags)
YBC_gaiaDR2	Gaia’s DR2 G, G_BP and G_RP (Vegamags, Gaia passbands from Evans et al. 2018)
YBC_gaiaDR2maiz	Gaia’s DR2 G, G_BP and G_RP (Vegamags, Gaia passbands from Maiz-Apellaniz and Weiler 2018)
YBC_gaiaDR2weiler	Gaia’s DR2 G, G_BP and G_RP (Vegamags, Gaia passbands from Weiler 2018)
YBC_UVbright	HST+GALEX+Swift/UVOT UV filters
YBC_acs_hrc	HST/ACS HRC
YBC_acs_wfc_pos04jul06	HST/ACS WFC (c.f. 2007 revision, pos-04jul06)
YBC_acs_wfc_202101	HST/ACS WFC - updated filters and zeropoints, 2021
YBC_nicmosab	HST/NICMOS AB
YBC_nicmosvega	HST/NICMOS Vega
YBC_stis	HST/STIS imaging mode, Vegamag
YBC_wfc3_wideverywide	HST/WFC3 all W+LP+X filters (UVIS1+IR, final throughputs)
YBC_wfc3_202101_verywide	HST/WFC3 long-pass and extremely wide filters (UVIS) - updated filters and zeropoints, 2021
YBC_wfc3_202101_medium	HST/WFC3 medium filters (UVIS+IR) - updated filters and zeropoints, 2021
YBC_wfc3_202101_wide	HST/WFC3 wide filters (UVIS+IR) - updated filters and zeropoints, 2021
YBC_wfpc2	HST/WFPC2 (Vegamag, cf. Holtzman et al. 1995)
YBC_hipparcos	Hipparcos+Tycho+Gaia DR1 (Vegamags)
YBC_int_wfc	INT/WFC (Vegamag)
YBC_iphas	IPHAS
YBC_jwst_miri_wide	JWST MIRI wide filters, Vegamags
YBC_jwst_nircam_wide	JWST NIRCam wide+verywide filters, Vegamags
jwst_nircam_widemedium_nov22	JWST NIRCam wide+verywide+medium filters (Nov 2022), Vegamags
YBC_jwst_nircam_widemedium	JWST NIRCam wide+verywide+medium filters, Vegamags
jwst_niriss_nov22	JWST NIRISS filters (Nov 2022), Vegamags
YBC_jwst_nirspec	JWST Nirspec filters, Vegamags
YBC_kepler	Kepler + SDSS griz + DDO51 (in ABmags)
YBC_kepler_2mass	Kepler + SDSS griz + DDO51 (in ABmags) + 2MASS (~Vegamag)
YBC_vst_vista	KiDS/VIKING (VST/OMEGAM + VISTA/VIRCAM, all ABmags)
YBC_lbt_lbc	LBT/LBC (Vegamag)
YBC_lsst_wfirst_proposed2017	LSST (ABmags) + WFIRST proposed filters (Vegamags)
YBC_lsst	LSST ugrizY, March 2012 total filter throughputs (all ABmags)
lsstDP0	LSST ugrizy, Oct 2017 total filter throughputs for DP0 (all ABmags)
lsstR1.9	LSST ugrizy, Sept 2023, total filter throughputs R1.9 (all ABmags)
YBC_noao_ctio_mosaic2	NOAO/CTIO/MOSAIC2 (Vegamag)
YBC_ogle	OGLE-II
YBC_panstarrs1	Pan-STARRS1
Roman2021	Roman (ex-WFIRST) 2021 filters, Vegamags
YBC_splus	S-PLUS (Vegamags), revised on Nov. 2017
YBC_sloan	SDSS ugriz
YBC_sloan_2mass	SDSS ugriz + 2MASS JHKs
YBC_sloan_ukidss	SDSS ugriz + UKIDSS ZYJHK
YBC_swift_uvot	SWIFT/UVOT UVW2, UVM2, UVW1,u (Vegamag)
YBC_skymapper	SkyMapper (ABmags)
YBC_spitzer	Spitzer IRAC+MIPS
YBC_stroemgren	Stroemgren-Crawford
YBC_hsc	Subaru/Hyper Suprime-Cam (ABmags)
YBC_suprimecam	Subaru/Suprime-Cam (ABmags)
SuperBIT	SuperBIT, all ABmags
YBC_TESS_2mass	TESS + 2MASS (Vegamags)
YBC_TESS_2mass_kepler	TESS + 2MASS (Vegamags) + Kepler + SDSS griz + DDO51 (in ABmags)
YBC_ukidss	UKIDSS ZYJHK (Vegamag)
YBC_uvit	UVIT (all ABmags)
YBC_visir	VISIR
YBC_vista	VISTA ZYJHKs (Vegamag)
YBC_vphas	VPHAS+ (ABmags)
YBC_vst_omegacam	VST/OMEGACAM (ABmag)
YBC_vilnius	Vilnius
YBC_wfc3_uvisCaHK	WFC3/UVIS around CaHK
YBC_washington_ddo51	Washington CMT1T2 + DDO51
YBC_ztf	ZTF (ABmags)
YBC_deltaa	deltaa (Paunzen) + UBV (Maiz-Apellaniz), in Vegamags

Stellar Atmospheres `photsys_version`#

value	description
YBC	YBC
YBCnewVega	YBC +new Vega
odfnew	OBC

Circumstellar dust flavors#

Dust for M stars `dust_sourceM`#

value	description
nodustM	No dust
sil	Silicates as in Bressan et al. (1998)
AlOx	100% AlOx as in Groenewegen (2006)
dpmod60alox40	60% Silicate + 40% AlOx as in Groenewegen (2006)
dpmod	100% Silicate as in Groenewegen (2006)

Dust for C stars `dust_sourceC`#

value	description
nodustC	No dust
gra	Graphites as in Bressan et al. (1998)
AMC	100% AMC as in Groenewegen (2006)
AMCSIC15	85% AMC + 15% SiC as in Groenewegen (2006)

Extinction#

parameter	value	description
`extinction_av`	0.0	mag. Apply this extinction Using extinction coefficients computed star-by-star (except for the OBC case, which uses constant coefficients) Adopted extinction curve Cardelli et al. (1989) + O’Donnell (1994), with RV=3.1 Warning: Interstellar extinction works only for isochrone tables, not for LFs or simulated populations. Moreover, it does not work (yet) on the PARSEC rotating models.
`extinction_coeff`	constant	Using extinction coefficients computed star-by-star (except for the OBC case, which uses constant coefficients)
`extinction_curve`	cardelli	Cardelli et al. (1989) + O’Donnell (1994) , with RV =3.1

LPVs `kind_LPV`#

value	description
1	Periods from Trabucchi et al. (2017) .
2	Periods from Trabucchi et al. (2019) .
3	Periods from Trabucchi et al. (2021) .

IMF `imf_file`#

value	description	filename
salpeter	Salpeter (1955) with cutoff at 0.01 M☉	tab_imf/imf_salpeter.dat
chabrier_exponential	Chabrier (2001) exponential	tab_imf/imf_chabrier_exponential.dat
chabrier_lognormal	Chabrier (2001) lognormal	tab_imf/imf_chabrier_lognormal.dat
chabrier_lognormal_salpeter	Chabrier (2001) lognormal + Salpeter (1955) for M>1M☉	tab_imf/imf_chabrier_lognormal_salpeter.dat
kroupa_orig	Kroupa (2001, 2002) canonical two-part-power law IMF, corrected for unresolved binaries	tab_imf/imf_kroupa_orig.dat

Default values#

parameter	value
`cmd_version`	3.8
`track_omegai`	0.00
`track_parsec`	parsec_CAF09_v1.2S
`track_colibri`	parsec_CAF09_v1.2S_S_LMC_08_web
`track_postagb`	no
`n_inTPC`	10
`eta_reimers`	0.2
`kind_interp`	1
`kind_postagb`	-1
`photsys_file`	YBC_tab_mag_odfnew/tab_mag_ubvrijhk.dat
`photsys_version`	YBCnewVega
`dust_sourceM`	dpmod60alox40
`dust_sourceC`	AMCSIC15
`kind_mag`	2
`kind_dust`	0
`extinction_av`	0.0
`extinction_coeff`	constant
`extinction_curve`	cardelli
`kind_LPV`	3
`imf_file`	tab_imf/imf_kroupa_orig.dat
`isoc_isagelog`	0
`isoc_agelow`	1.0e9
`isoc_ageupp`	1.0e10
`isoc_dage`	0.0
`isoc_lagelow`	6.6
`isoc_lageupp`	10.13
`isoc_dlage`	0.0
`isoc_ismetlog`	0
`isoc_zlow`	0.0152
`isoc_zupp`	0.03
`isoc_dz`	0.0
`isoc_metlow`	-2
`isoc_metupp`	0.3
`isoc_dmet`	0.0
`output_kind`	0
`output_evstage`	1
`lf_maginf`	-15
`lf_magsup`	20
`lf_deltamag`	0.5
`sim_mtot`	1.0e4
`submit_form`	Submit

EzPadova configuration file

Contents

EzPadova configuration file#

Track flavors track_parsec#

Track Rotation track_omegai#

Track COLIBRI track_colibri#

additional parameters#

Photometric systems photsys_file#

Stellar Atmospheres photsys_version#