3.3.18.1  :  MRscPlanck1 and MRIIscPlanck1

The database Henriques2015a contains two tables with catalogues of galaxy merger trees produced by running the semi-analytic code L-Galaxies as described in Henriques et al. 2015, on the PLANCK halo merger trees stored in the MPAHaloTrees database. A full description of the galaxy formation model used to produce these catalogues, as well as download links for all predictions and combined observational data plotted in the paper can be found here.

The catalogues now contain emission in 20 photometric bands and full star formation and metalliticy histories in logarithmic bins which can be used to compute galaxy emission in additional photometric bands or to serve as input for SED fiting codes. The time structure of these bins is kept on separate tables: SFH_Times_MR & SFH_Times_MRII. The binning method, as well as pratical examples, are described in Shamshiri et al. 2015. Soon we also plan on making available full spectra, computed from such star formation histories, for a representative subset of galaxies.

The tables all have the same columns shown below. The many different "id"-columns implement pointers that allow one to traverse the merging trees in different ways. For an explanation of how merger trees are represented in these tables see this page.

column type UCD unit description
galaxyId bigint meta.id;meta.main The unique identifier of this galaxy. Built from the topologically sorted merger tree as described in TBD
haloId bigint meta.id.parent The haloId of the subhalo (in the halo table with the same name in MPAHaloTrees) containing this galaxy.
TBD add link to more detailed explanation
firstProgenitorId bigint meta.id.assoc galaxyId of the first progenitor of this galaxy. Strictly galaxyId+1 iff lastProgenitorId > galaxyId, else -1.
TBD add link to more detailed explanation
nextProgenitorId bigint meta.id.assoc galaxyId of next progenitor of this galaxy in the linked list structure used to facilitate traversing trees in code.
TBD add link to more detailed explanation
lastProgenitorGalId bigint meta.id.assoc The galaxyId of the last progenitor of this galaxy in the topological ordering used to assign galaxyId-s as described in this page.
fofCentralId bigint meta.id.assoc The galaxy id of the central galaxy of the FOF group this galaxy is in.
treeId bigint meta.id.parent Unique id of galaxy formation tree containing this galaxy. Note that this treeId does not identify merger trees but the larger structures defining galaxy formation units.
The following equalities hold:
For MR and mMR: treeId = 1000000*floor(galaxyId/1000000).
For MRII and mMRII: treeId = 1000000000*floor(galaxyId/1000000000)
descendantId bigint meta.id.assoc galaxyId of the descendant of this galaxy in its merger tree.
mainLeafId bigint meta.id.assoc galaxyId of the leaf on the main branch this galaxy is part of. Obtained by following firstProgenitorId as far as it goes.
treeRootId bigint meta.id.assoc The galaxyId of the galaxy at the root of the merger tree this galaxy is in. Especially useful for speeding up queries for descendants for a given progenitor. See TBD for an example.
subHaloId bigint meta.id Id of the subhalo containing this galaxy, as given by the column subhaloFileID in the MillenniumII..SubHalo, miniMilII..SubHalo table (for MRII and mMRII), and by the column subhaloId in the MField.FOFSubHalo, millimil..FOFSubHalo tables (for MR and mMR). Alternative to haloId.
fofSubHaloId bigint meta.id.assoc The subhaloId resp. subhaloFileId (for mMR and MR resp. mMRII and MRII, see documentation of subhaloId column in this table) of the subhalo at the center of the FOF group containing this galaxy.
phKey int The Peano-Hilbert index of the cell this galaxy is in, in the 2563 grid stored in MField...MField (for Millennium, not yet available for Millennium-II). Or, for mMR, the 83 density field in millimil..MMField
redshift real time The redshift corresponding to the snapnum (in MField..Snapshots for mMR and MR, MillenniumII..Snapshots for MRII and mMRII) for this galaxy.
type int src.class Type indicating whether galaxy is at the center of the FOF group (type=0), at center of the subhalo that is not at the center of its FOF gorup (type=1), or is a setellite that has lost its subhalo (type=2).
snapnum int time The snapshot number where this galaxy was identified.
This column is a foreign key to the snapnum column in the table in the Snapshots database with the same name as current Henriques2015a galaxies table. I.e. Snapshots..MRscPlanck1 or Snapshots..MRIIscPlanck1
lookBackTime real time yr The look back time (in years) from z=0 to the redshift of the galaxy.
centralMvir real phys.veloc.dispersion 1010 Msun/h The virial mass (as defined by m_crit200) of the FOF group the galaxy resides in.
centralRvir real phys.veloc.dispersion Mpc/h The virial radius (as defined by r_crit200) of the FOF group the galaxy resides in.
distanceToCentralGalX real phys.size.radius Mpc/h X-component of the distance between this galaxy and the galaxy at the centre of the FoF group.
distanceToCentralGalY real phys.size.radius Mpc/h Y-component of the distance between this galaxy and the galaxy at the centre of the FoF group.
distanceToCentralGalZ real phys.size.radius Mpc/h Z-component of the distance between this galaxy and the galaxy at the centre of the FoF group.
x real pos.cartesian.x Mpc/h X-component of position of galaxy.
y real pos.cartesian.y Mpc/h Y-component of position of galaxy.
z real pos.cartesian.z Mpc/h Z-component of position of galaxy.
velX real phys.veloc km/s X-component of velocity of galaxy.
velY real phys.veloc km/s Y-component of velocity of galaxy.
velZ real phys.veloc km/s Z-component of velocity of galaxy.
np int meta.number Number of particles of the subhalo this galaxy is in.
mvir real phys.mass 1010 Msun/h Virial mass (as defined by m_crit200) of the FOF group this galaxy was in when last it was a type 0 galaxy. I.e. current mass for type 0 galaxies, "infall virial mass" for type 1,2 galaxies.
rvir real phys.size.radius Mpc/h Virial radius (as defined by r_crit200) of the FOF group this galaxy was in when last it was a type 0 galaxy. I.e. current virial radius for type 0 galaxies, "infall virial radius" for type 1,2 galaxies
vvir real phys.veloc km/s Virial velocity of the subhalo the galaxy is/was the center of.
vmax real phys.veloc.rotat km/s Maximum rotational velocity of the subhalo of which this galaxy is the center, or the last value for satellite galaxies.
gasSpinX real phys.veloc.ang Mpc/h km/s The X-component of the spin of the cold gas disk
gasSpinY real phys.veloc.ang Mpc/h km/s The X-component of the spin of the cold gas disk
gasSpinZ real phys.veloc.ang Mpc/h km/s The X-component of the spin of the cold gas disk
stellarSpinX real phys.veloc.ang Mpc/h km/s The X-component of the spin of the stellar disk
stellarSpinY real phys.veloc.ang Mpc/h km/s The X-component of the spin of the stellar disk
stellarSpinZ real phys.veloc.ang Mpc/h km/s The X-component of the spin of the stellar disk
infallVmax real phys.veloc.rotat km/s Maximum rotational velocity of the host halo of this galaxy at infallSnap.
vmaxPeak real phys.veloc.rotat km/s Maximum past rotational velocity of the host halo of this galaxy.
infallSnap int time Most recent (largest) snapnum at which this galaxy's type changed from 0 to 1 or 2
infallHotGas real phys.mass 1010 Msun /h Mass in hot gas at the time of infall (same as hotGas for type 0 galaxies).
hotRadius real phys.size.radius Mpc/h Radius out to which hot gas extends: rvir for type 0; 0 for type 2; maximum radius out to which hot gas is not stripped for type 1.
oriMergeTime real [UCD] yr Estimated dyniamical friction time (in years) when the merger clock is set.
mergeTime real [UCD] yr Estimated remaining merging time (in years). oriMergeTime - time since the merger clock is set.
coldGas real phys.mass 1010 Msun /h Mass in the cold gas disk.
stellarMass real phys.mass 1010 Msun /h Total mass in stars in the disk and the bulge together.
bulgeMass real phys.mass 1010 Msun /h Mass of stars in the bulge.
diskMass real phys.mass 1010 Msun /h Mass of stars in the disk.
hotGas real phys.mass 1010 Msun /h Mass in hot gas.
ejectedMass real phys.mass 1010 Msun /h Mass in the ejected gas component.
blackHoleMass real phys.mass 1010 Msun /h Mass of the central black hole.
icmStellarMass real phys.mass 1010 Msun /h Mass in intra-cluster stars
metalsColdGas real phys.mass 1010 Msun /h Mass in metals in the cold gas disk.
metalsStellarMass real phys.mass 1010 Msun /h Mass in metals in stars in the disk and the bulge together.
metalsBulgeMass real phys.mass 1010 Msun /h Mass in metals in stars in the bulge.
metalsDiskMass real phys.mass 1010 Msun /h Mass in metals in stars in the disk.
metalsHotGas real phys.mass 1010 Msun /h Mass in metals in hot gas.
metalsEjectedMass real phys.mass 1010 Msun /h Mass in metals in the ejected mass component.
metalsICMStellarMass real phys.mass 1010 Msun /h Mass in metals in intra-cluster stars
primordialAccretionRate real phys.SFR Msun/yr Accretion rate of primordial gas.
coolingRadius real phys.size.radius Mpc/h The radius within which the cooling time scale is shorter than the dynamical timescale
coolingRate real phys.SFR Msun/yr Cooling rate
coolingRateNoAGN real phys.SFR Msun/yr Cooling rate if there was no AGN feedback.
quasarAccretionRate real phys.SFR Msun/yr Rate at which cold gas is accreted into the central black hole in the quasar mode.
radioAccretionRate real phys.SFR Msun/yr Rate at which hot gas is accreted into the central black hole in the radio mode.
sfr real phys.SFR Msun/yr Star formation rate
sfrBulge real phys.SFR Msun/yr Star formation rate in bulge.
xrayLum real em.X-Ray log10(erg/sec) Log10 of X-Ray luminosity in erg/sec
bulgeSize real phys.size.radius Mpc/h Half mass radius of bulge
stellarDiskRadius real phys.size.radius Mpc/h Size of the stellar disk, 3x the scale length.
cosInclination real phys.size.radius deg Inclination of the galaxy. Derived from the angle between the total and z-axis stellar spins of the galaxy.
disruptionOn int 0: galaxy merged onto merger center;
1: galaxy was disrupted before merging onto its descendant, matter went into ICM of merger center
mergeOn int 0: merger clock not set yet;
1: type 1 galaxy with baryon mass > halo mass, separate dynamical friction time calculated
2: this galaxy is type 2 and will merge into the merger center in the next snapshot
3: this galaxy is type 1 and will merge into the central galaxy of the main halo in the next snapshot
U_Dust real phot.mag;em.opt.U Rest-frame absolute (AB) magnitude in the Johnson-Bessel U filter (lambda=0.36um) of the galaxy (dust extinction included).
B_Dust real phot.mag;em.opt.B Rest-frame absolute (AB) magnitude in the Johnson-Bessel B filter (lambda=0.435um) of the galaxy (dust extinction included).
V_Dust real phot.mag;em.opt.V Rest-frame absolute (AB) magnitude in the Johnson-Bessel V filter (lambda=0.55um) of the galaxy (dust extinction included).
Rc_Dust real phot.mag;em.opt.Rc Rest-frame absolute (AB) magnitude in the Cousins Rc filter (lambda=0.64um) of the galaxy (dust extinction included).
Ic_Dust real phot.mag;em.opt.Ic Rest-frame absolute (AB) magnitude in the Cousins Ic filter (lambda=0.79um) of the galaxy (dust extinction included).
Z_Dust real phot.mag;em.opt.Z Rest-frame absolute (AB) magnitude in the VISTA Z filter (lambda=0.88um) of the galaxy (dust extinction included).
Y real phot.mag;em.opt.Y Rest-frame absolute (AB) magnitude in the VISTA Y filter (lambda=1.02um) of the galaxy (dust extinction included).
J_Dust real phot.mag;em.opt.J Rest-frame absolute (AB) magnitude in the VISTA/2MASS J filter (lambda=1.26um) of the galaxy (dust extinction included).
H_Dust real phot.mag;em.opt.H Rest-frame absolute (AB) magnitude in the VISTA/2MASS H filter (lambda=1.60um) of the galaxy (dust extinction included).
K_Dust real phot.mag;em.opt.K Rest-frame absolute (AB) magnitude in the Johnson-Bessel K (lambda=2.22um) filter of the galaxy (dust extinction included).
Ks_Dust real phot.mag;em.opt.Ks Rest-frame absolute (AB) magnitude in the VISTA/2MASS Ks (lambda=2.16um) filter of the galaxy (dust extinction included).
irac36_Dust real phot.mag;em.opt.irac36 Rest-frame absolute (AB) magnitude in the IRAC 3.6um filter of the galaxy (dust extinction included).
irac45_Dust real phot.mag;em.opt.irac45 Rest-frame absolute (AB) magnitude in the IRAC 4.5um filter of the galaxy (dust extinction included).
GFUV_Dust real phot.mag;em.opt.GFUV Rest-frame absolute (AB) magnitude in the GALEX FUV filter (lambda=0.148um) of the galaxy (dust extinction included).
GNUV_Dust real phot.mag;em.opt.GNUV Rest-frame absolute (AB) magnitude in the GALEX NUV filter (lambda=0.219um) of the galaxy (dust extinction included).
SDSSu_Dust real phot.mag;em.opt.SDSS_u Rest-frame absolute (AB) magnitude in the SDSS u filter (lambda=0.355um) of the galaxy (dust extinction included).
SDSSg_Dust real phot.mag;em.opt.SDSS_g Rest-frame absolute (AB) magnitude in the SDSS g filter (lambda=0.469um) of the galaxy (dust extinction included).
SDSSr_Dust real phot.mag;em.opt.SDSS_r Rest-frame absolute (AB) magnitude in the SDSS r filter (lambda=0.617um) of the galaxy (dust extinction included).
SDSSi_Dust real phot.mag;em.opt.SDSS_i Rest-frame absolute (AB) magnitude in the SDSS i filter (lambda=0.748um) of the galaxy (dust extinction included).
SDSSz_Dust real phot.mag;em.opt.SDSS_z Rest-frame absolute (AB) magnitude in the SDSS z filter (lambda=0.893um) of the galaxy (dust extinction included).
U_NoDust real phot.mag;em.opt.U Rest-frame absolute (AB) magnitude in the Johnson-Bessel U filter (lambda=0.36um) of the galaxy (no dust extinction).
B_NoDust real phot.mag;em.opt.B Rest-frame absolute (AB) magnitude in the Johnson-Bessel B filter (lambda=0.435um) of the galaxy (no dust extinction).
V_NoDust real phot.mag;em.opt.V Rest-frame absolute (AB) magnitude in the Johnson-Bessel V filter (lambda=0.55um) of the galaxy (no dust extinction).
Rc_NoDust real phot.mag;em.opt.Rc Rest-frame absolute (AB) magnitude in the Cousins Rc filter (lambda=0.64um) of the galaxy (no dust extinction).
Ic_NoDust real phot.mag;em.opt.Ic Rest-frame absolute (AB) magnitude in the Cousins Ic filter (lambda=0.79um) of the galaxy (no dust extinction).
Z_NoDust real phot.mag;em.opt.Z Rest-frame absolute (AB) magnitude in the VISTA Z filter (lambda=0.88um) of the galaxy (no dust extinction).
Y_NoDust real phot.mag;em.opt.Y Rest-frame absolute (AB) magnitude in the VISTA Y filter (lambda=1.02um) of the galaxy (no dust extinction).
J_NoDust real phot.mag;em.opt.J Rest-frame absolute (AB) magnitude in the VISTA/2MASS J filter (lambda=1.26um) of the galaxy (no dust extinction).
H_NoDust real phot.mag;em.opt.H Rest-frame absolute (AB) magnitude in the VISTA/2MASS H filter (lambda=1.60um) of the galaxy (no dust extinction).
K_NoDust real phot.mag;em.opt.K Rest-frame absolute (AB) magnitude in the Johnson-Bessel K (lambda=2.22um) filter of the galaxy (no dust extinction).
Ks_NoDust real phot.mag;em.opt.Ks Rest-frame absolute (AB) magnitude in the VISTA/2MASS Ks (lambda=2.16um) filter of the galaxy (no dust extinction).
irac36_NoDust real phot.mag;em.opt.irac36 Rest-frame absolute (AB) magnitude in the IRAC 3.6um filter of the galaxy (no dust extinction).
irac45_NoDust real phot.mag;em.opt.irac45 Rest-frame absolute (AB) magnitude in the IRAC 4.5um filter of the galaxy (no dust extinction).
GFUV_NoDust real phot.mag;em.opt.GFUV Rest-frame absolute (AB) magnitude in the GALEX FUV filter (lambda=0.148um) of the galaxy (no dust extinction).
GNUV_NoDust real phot.mag;em.opt.GNUV Rest-frame absolute (AB) magnitude in the GALEX NUV filter (lambda=0.219um) of the galaxy (no dust extinction).
SDSSu_NoDust real phot.mag;em.opt.SDSS_u Rest-frame absolute (AB) magnitude in the SDSS u filter (lambda=0.355um) of the galaxy (no dust extinction).
SDSSg_NoDust real phot.mag;em.opt.SDSS_g Rest-frame absolute (AB) magnitude in the SDSS g filter (lambda=0.469um) of the galaxy (no dust extinction).
SDSSr_NoDust real phot.mag;em.opt.SDSS_r Rest-frame absolute (AB) magnitude in the SDSS r filter (lambda=0.617um) of the galaxy (no dust extinction).
SDSSi_NoDust real phot.mag;em.opt.SDSS_i Rest-frame absolute (AB) magnitude in the SDSS i filter (lambda=0.748um) of the galaxy (no dust extinction).
SDSSz_NoDust real phot.mag;em.opt.SDSS_z Rest-frame absolute (AB) magnitude in the SDSS z filter (lambda=0.893um) of the galaxy (no dust extinction).
U_BulgeDust real phot.mag;em.opt.U Rest-frame absolute (AB) magnitude in the Johnson-Bessel U filter (lambda=0.36um) of the bulge (dust extinction included).
B_BulgeDust real phot.mag;em.opt.B Rest-frame absolute (AB) magnitude in the Johnson-Bessel B filter (lambda=0.435um) of the bulge (dust extinction included).
V_BulgeDust real phot.mag;em.opt.V Rest-frame absolute (AB) magnitude in the Johnson-Bessel V filter (lambda=0.55um) of the bulge (dust extinction included).
Rc_BulgeDust real phot.mag;em.opt.Rc Rest-frame absolute (AB) magnitude in the Cousins Rc filter (lambda=0.64um) of the bulge (dust extinction included).
Ic_BulgeDust real phot.mag;em.opt.Ic Rest-frame absolute (AB) magnitude in the Cousins Ic filter (lambda=0.79um) of the bulge (dust extinction included).
Z_BulgeDust real phot.mag;em.opt.Z Rest-frame absolute (AB) magnitude in the VISTA Z filter (lambda=0.88um) of the bulge (dust extinction included).
Y_BulgeDust real phot.mag;em.opt.Y Rest-frame absolute (AB) magnitude in the VISTA Y filter (lambda=1.02um) of the bulge (dust extinction included).
J_BulgeDust real phot.mag;em.opt.J Rest-frame absolute (AB) magnitude in the VISTA/2MASS J filter (lambda=1.26um) of the bulge (dust extinction included).
H_BulgeDust real phot.mag;em.opt.H Rest-frame absolute (AB) magnitude in the VISTA/2MASS H filter (lambda=1.60um) of the bulge (dust extinction included).
K_BulgeDust real phot.mag;em.opt.K Rest-frame absolute (AB) magnitude in the Johnson-Bessel K (lambda=2.22um) filter of the bulge (dust extinction included).
Ks_BulgeDust real phot.mag;em.opt.Ks Rest-frame absolute (AB) magnitude in the VISTA/2MASS Ks (lambda=2.16um) filter of the bulge (dust extinction included).
irac36_BulgeDust real phot.mag;em.opt.irac36 Rest-frame absolute (AB) magnitude in the IRAC 3.6um filter of the bulge (dust extinction included).
irac45_BulgeDust real phot.mag;em.opt.irac45 Rest-frame absolute (AB) magnitude in the IRAC 4.5um filter of the bulge (dust extinction included).
GFUV_BulgeDust real phot.mag;em.opt.GFUV Rest-frame absolute (AB) magnitude in the GALEX FUV filter (lambda=0.148um) of the bulge (dust extinction included).
GNUV_BulgeDust real phot.mag;em.opt.GNUV Rest-frame absolute (AB) magnitude in the GALEX NUV filter (lambda=0.219um) of the bulge (dust extinction included).
SDSSu_BulgeDust real phot.mag;em.opt.SDSS_u Rest-frame absolute (AB) magnitude in the SDSS u filter (lambda=0.355um) of the bulge (dust extinction included).
SDSSg_BulgeDust real phot.mag;em.opt.SDSS_g Rest-frame absolute (AB) magnitude in the SDSS g filter (lambda=0.469um) of the bulge (dust extinction included).
SDSSr_BulgeDust real phot.mag;em.opt.SDSS_r Rest-frame absolute (AB) magnitude in the SDSS r filter (lambda=0.617um) of the bulge (dust extinction included).
SDSSi_BulgeDust real phot.mag;em.opt.SDSS_i Rest-frame absolute (AB) magnitude in the SDSS i filter (lambda=0.748um) of the bulge (dust extinction included).
SDSSz_BulgeDust real phot.mag;em.opt.SDSS_z Rest-frame absolute (AB) magnitude in the SDSS z filter (lambda=0.893um) of the bulge (dust extinction included).
U_ICLDust real phot.mag;em.opt.U Rest-frame absolute (AB) magnitude in the Johnson-Bessel U filter (lambda=0.36um) of intra-cluster stars (dust extinction included).
B_ICLDust real phot.mag;em.opt.B Rest-frame absolute (AB) magnitude in the Johnson-Bessel B filter (lambda=0.435um) of intra-cluster stars (dust extinction included).
V_ICLDust real phot.mag;em.opt.V Rest-frame absolute (AB) magnitude in the Johnson-Bessel V filter (lambda=0.55um) of intra-cluster stars (dust extinction included).
Rc_ICLDust real phot.mag;em.opt.Rc Rest-frame absolute (AB) magnitude in the Cousins Rc filter (lambda=0.64um) of intra-cluster stars (dust extinction included).
Ic_ICLDust real phot.mag;em.opt.Ic Rest-frame absolute (AB) magnitude in the Cousins Ic filter (lambda=0.79um) of intra-cluster stars (dust extinction included).
Z_ICLDust real phot.mag;em.opt.Z Rest-frame absolute (AB) magnitude in the VISTA Z filter (lambda=0.88um) of intra-cluster stars (dust extinction included).
Y_ICLDust real phot.mag;em.opt.Y Rest-frame absolute (AB) magnitude in the VISTA Y filter (lambda=1.02um) of intra-cluster stars (dust extinction included).
J_ICLDust real phot.mag;em.opt.J Rest-frame absolute (AB) magnitude in the VISTA/2MASS J filter (lambda=1.26um) of intra-cluster stars (dust extinction included).
H_ICLDust real phot.mag;em.opt.H Rest-frame absolute (AB) magnitude in the VISTA/2MASS H filter (lambda=1.60um) of intra-cluster stars (dust extinction included).
K_ICLDust real phot.mag;em.opt.K Rest-frame absolute (AB) magnitude in the Johnson-Bessel K (lambda=2.22um) filter of intra-cluster stars (dust extinction included).
Ks_ICLDust real phot.mag;em.opt.Ks Rest-frame absolute (AB) magnitude in the VISTA/2MASS Ks (lambda=2.16um) filter of intra-cluster stars (dust extinction included).
irac36_ICLDust real phot.mag;em.opt.irac36 Rest-frame absolute (AB) magnitude in the IRAC 3.6um filter of intra-cluster stars (dust extinction included).
irac45_ICLDust real phot.mag;em.opt.irac45 Rest-frame absolute (AB) magnitude in the IRAC 4.5um filter of intra-cluster stars (dust extinction included).
GFUV_ICLDust real phot.mag;em.opt.GFUV Rest-frame absolute (AB) magnitude in the GALEX FUV filter (lambda=0.148um) of intra-cluster stars (dust extinction included).
GNUV_ICLDust real phot.mag;em.opt.GNUV Rest-frame absolute (AB) magnitude in the GALEX NUV filter (lambda=0.219um) of intra-cluster stars (dust extinction included).
SDSSu_ICLDust real phot.mag;em.opt.SDSS_u Rest-frame absolute (AB) magnitude in the SDSS u filter (lambda=0.355um) of intra-cluster stars (dust extinction included).
SDSSg_ICLDust real phot.mag;em.opt.SDSS_g Rest-frame absolute (AB) magnitude in the SDSS g filter (lambda=0.469um) of intra-cluster stars (dust extinction included).
SDSSr_ICLDust real phot.mag;em.opt.SDSS_r Rest-frame absolute (AB) magnitude in the SDSS r filter (lambda=0.617um) of intra-cluster stars (dust extinction included).
SDSSi_ICLDust real phot.mag;em.opt.SDSS_i Rest-frame absolute (AB) magnitude in the SDSS i filter (lambda=0.748um) of intra-cluster stars (dust extinction included).
SDSSz_ICLDust real phot.mag;em.opt.SDSS_z Rest-frame absolute (AB) magnitude in the SDSS z filter (lambda=0.893um) of intra-cluster stars (dust extinction included).
massWeightedAge real time.age 109yr The age of this galaxy, weighted by mass of its components.
rbandWeightedAge real time.age 109yr The age of this galaxy, weighted by mass of its components.
sfh_ibin int time.age Index of the higest star formation history bin currently in use.
sfh_numbins int time.age Number of non-empty star formation history bins.
sfh_DiskMass_i [i=1..20] real time.age 1010 Msun /h Bin[i of 20] for star formation history in the disk.
sfh_BulgeMass_i [i=1..20] real time.age 1010 Msun /h Bin[i of 20] for star formation history in the bulge.
sfh_ICMStellarMass_i [i=1..20] real time.age 1010 Msun /h Bin[i of 20] for star formation history in intra-cluster stars.
sfh_MetalsDiskMass_i [i=1..20] real time.age 1010 Msun /h Bin[i of 20] for metal formation history in the disk.
sfh_MetalsBulgeMass_i [i=1..20] real time.age 1010 Msun /h Bin[i of 20] for metal formation history in the bulge.
sfh_MetasICMStellarMass_i [i=1..20] real time.age 1010 Msun /h Bin[i of 20] for metal formation history in intra-cluster stars.