MOCCA-SURVEY-2, file system.dat

File system.dat contains parameters of a star cluster for every time-step.

List of columns in the system.dat file:

name: etot, type: DOUBLE, column: 4
total energy in MC units (ideally should be equal to0.25)

name: de, type: DOUBLE, column: 8
energy error in MC units in one overall time step

name: enepot, type: DOUBLE, column: 9
total potential energy changes due to collisions,binary formation, binary mergers or binarydissruptions (in MC units)

name: rcn, type: DOUBLE, column: 12
core radius in pc (not mass weighted)

name: rchut, type: DOUBLE, column: 13
core radius in pc according casertano & hut (densityweighted)

name: rchut2, type: DOUBLE, column: 14
core radius in pc according casertano & hut(density^2 weighted)

name: rcob, type: DOUBLE, column: 15
core radius in pc determined as for observations(distance at which surface brightnes is equal to halfthe central one

name: rhob, type: DOUBLE, column: 18
half-luminosity radius in pc (observational)

name: vc, type: DOUBLE, column: 24
central velocity dispersion in km/s (mass weighted)

name: vcn, type: DOUBLE, column: 25
central velocity in km/s (not mass weighted)

name: rohut, type: DOUBLE, column: 27
central density in pc according casertano & hut inMsun/pc^3

name: smsm, type: DOUBLE, column: 29
maximum mass of single ms stars in Msun

name: ssmsm, type: DOUBLE, column: 31
maximum mass of ms stars in binaries in Msun

name: ssbhm, type: DOUBLE, column: 32
maximum mass of bh in binaries in Msun

name: csb, type: DOUBLE, column: 34
central surface brightness in mag/pc^2

name: ppmax, type: DOUBLE, column: 35
maximum p_dot/p for milisecond pulsars

name: sescrt, type: DOUBLE, column: 38
total mass loss in Msun due to adjustment ot the tidalradius

name: nescrt, type: INTEGER, column: 39
total number of escapers due to adjustment ot thetidal radius

name: arc, type: DOUBLE, column: 40
average mass in Msun inside core radius (rc)

name: archut2, type: DOUBLE, column: 41
average mass in Msun inside core radius (rchut2)

name: a1p, type: DOUBLE, column: 42
average mass in Msun inside 1% lagrangian radius

name: a10p, type: DOUBLE, column: 43
average mass in Msun inside 10% lagrangian radius

name: a50p, type: DOUBLE, column: 44
average mass in Msun inside 50% lagrangian radius

name: a70p, type: DOUBLE, column: 45
average mass in Msun inside 70% lagrangian radius

name: atot, type: DOUBLE, column: 46
average mass in Msun inside 100% lagrangian radius

name: nt, type: INTEGER, column: 48
actual number of objects (an object is a single star ora binary)

name: nt0, type: INTEGER, column: 49
number of objects including dissrupted binaries andmerged objects (always greater than the initial nt)

name: irchut2, type: INTEGER, column: 51
number of objects in the core (rchut2)

name: nmloev, type: INTEGER, column: 54
total number of mass loss due to stellar evolution

name: escns, type: INTEGER, column: 55
total number of ns escaped from the system

name: escsta, type: DOUBLE, column: 56
total energy of escapers (MC units)

name: ebin, type: DOUBLE, column: 57
actual binding energy of binaries in the system (MCunits)

name: ehbint, type: DOUBLE, column: 58
total binary binding energy - energy generated indynamical interactions + binding energy ofprimordial binaries (MC units)

name: ehbin3, type: DOUBLE, column: 59
total heating due to binary-star interactions (MCunits)

name: ehb3b3, type: DOUBLE, column: 60
total heating by binary-binary interactions (MCunits)

name: embin3, type: DOUBLE, column: 61
total energy loss in binary-single merger in Fewbody(MC units)

name: emb3b3, type: DOUBLE, column: 62
total energy loss in binary-binary merger in Fewbody(MC units)

name: escb3s, type: DOUBLE, column: 63
energy of star escapers in binary interactions (MCunits)

name: escbi3, type: DOUBLE, column: 64
energy of binary escapers n binary interactions (MCunits)

name: escbb3, type: DOUBLE, column: 65
internal binding energy of binary escapers in binaryinteractions (MC units)

name: ehmlev, type: DOUBLE, column: 66
total heating by mass loss due to stellar evolution(MC units)

name: ehcoll, type: DOUBLE, column: 67
total heating due to stellar collisions (MC units)

name: eccoll, type: DOUBLE, column: 68
total cooling due to stellar collisions (MC units)

name: nbin3, type: INTEGER, column: 69
number of all binaries initial primordial anddynamicaly formed

name: ncoll, type: INTEGER, column: 70
total number of stellar collisions

name: nb3fin, type: INTEGER, column: 71
total number of interactions between three-bodybinaries and field stars

name: nb3b3, type: INTEGER, column: 72
total number of binary-binary interactions

name: nescb3, type: INTEGER, column: 73
total number of escaped binaries due tointeractions

name: nesb3s, type: INTEGER, column: 74
total number of star escapers because ofinteractions

name: ndist3, type: INTEGER, column: 75
total number of dissolved binaries in binary-singleinteractions

name: ndist4, type: INTEGER, column: 76
total number of dissolved binaries in binary-binaryinteractions

name: ndiste, type: INTEGER, column: 77
total number of dissolved binaries because of binaryevolution

name: nmerg3, type: INTEGER, column: 78
total number of merged binaries in binary-singleinteractions

name: nmerg4, type: INTEGER, column: 79
total number of merged binaries in binary-binaryinteractions

name: nmerge, type: INTEGER, column: 80
total number of merged binaries due to stellarevolution

name: idestr, type: INTEGER, column: 81
number of binaries destryed due to interactions

name: ibiesc, type: INTEGER, column: 83
number of binaries escaped due to interactions

name: ibirel, type: INTEGER, column: 84
number of binaries escaped due to relaxation

name: nactbin, type: INTEGER, column: 85
nbin3-nescb3-ndist3-ndist4-ndiste-nmerg3-nmerg4-nmergeactual number of binaries

name: nexchang, type: INTEGER, column: 86
total number of exchanges in binary-singleinteractions

name: nexchang2, type: INTEGER, column: 87
total number of exchanges in binary-binaryinteractions

name: sloses, type: DOUBLE, column: 88
total mass loss in Msun due to the relaxation process

name: slosev, type: DOUBLE, column: 89
total mass loss in Msun due to stellar evolutin

name: slosco, type: DOUBLE, column: 90
total mass loss in Msun due to stellar collisions

name: slob3s, type: DOUBLE, column: 91
mass loss in Msun of stars in binary-starinteractions

name: slob3b, type: DOUBLE, column: 92
mass loss in Msun of binaries in binary-binaryinteractions

name: bsEM, type: INTEGER, column: 93
actual number of blue stragglers formed in binaryevolution mergers

name: bsEMT, type: INTEGER, column: 94
actual number of blue stragglers formed in binaryevolution mass transfers

name: bsED, type: INTEGER, column: 95
actual number of blue stragglers formed in binaryevolution binary dissolution

name: bsCSS, type: INTEGER, column: 96
actual number of blue stragglers formed incollisions

name: bsCBS, type: INTEGER, column: 97
actual number of blue stragglers formed inbinary-star interactions

name: bsCBB, type: INTEGER, column: 98
actual number of blue stragglers formed inbinary-binary interactions

name: bsEXBS, type: INTEGER, column: 99
actual number of blue stragglers formed inbinary-single exchenges

name: bsEXBB, type: INTEGER, column: 100
actual number of blue stragglers formed inbinary-binary exchenges

name: bsDBS, type: INTEGER, column: 101
actual number of blue stragglers formed inbinary-single dissolutions

name: bsDBB, type: INTEGER, column: 102
actual number of blue stragglers formed inbinary-binary dissolutions

name: nbss, type: INTEGER, column: 103
bsEM+bsEMT+bsED+bsCSS+bsCBS+bsCBB+bsEXBS+bsEXBB+bsDBS+bsDBBactual number of blue stragglers in the system

name: ibssingle, type: INTEGER, column: 104
number of single blue stragglers

name: ibsdouble, type: INTEGER, column: 105
number of binary blue stragglers

name: tbss, type: INTEGER, column: 106
tEM+tEMT+tED+tCSS+tCBS+tCBB total number of bluestragglers

name: tEM, type: INTEGER, column: 107
total number of blue stragglers formed in binaryevolutions mergers

name: tEMT, type: INTEGER, column: 108
total number of blue stragglers formed in binaryevolution mass transfers

name: tED, type: INTEGER, column: 109
actual number of blue stragglers formed in binaryevolution binary dissolutions

name: tCSS, type: INTEGER, column: 110
total number of blue stragglers formed in collisions

name: tCBS, type: INTEGER, column: 111
total number of blue stragglers formed inbinary-star interactions

name: tCBB, type: INTEGER, column: 112
total number of blue stragglers formed inbinary-binary interactions

name: fEM, type: INTEGER, column: 113
number of blue stragglers for which formation typewas binary evolution mergers

name: fEMT, type: INTEGER, column: 114
actual number of blue stragglers formed in binaryevolution mass transfers

name: fED, type: INTEGER, column: 115
actual number of blue stragglers formed in binaryevolution binary dissolution

name: fCSS, type: INTEGER, column: 116
actual number of blue stragglers formed incollisions

name: fCBS, type: INTEGER, column: 117
actual number of blue stragglers formed inbinary-star interactions

name: fCBB, type: INTEGER, column: 118
actual number of blue stragglers formed inbinary-binary interactions

name: fEXBS, type: INTEGER, column: 119
actual number of blue stragglers formed inbinary-single exchenges

name: fEXBB, type: INTEGER, column: 120
actual number of blue stragglers formed inbinary-binary exchenges

name: fDBS, type: INTEGER, column: 121
actual number of blue stragglers formed inbinary-single dissolutions

name: fDBB, type: INTEGER, column: 122
actual number of blue stragglers formed inbinary-binary dissolutions KICKS

name: ekickt, type: DOUBLE, column: 123
total kinetic energy of ns/bh after supernoveexplosion and natal kick (only single stars) (MCunits)

name: ekicktbs, type: DOUBLE, column: 124
total kinetic energy of binary cm after supernoveexplosion and natal kick (only binaries) (MC units)

name: ekicktbd, type: DOUBLE, column: 125
total kinetic energy of binary components afterbinary disruption due to supernove axplosion andnatal kick (only binaries) (MC units)

name: ekicktbm, type: DOUBLE, column: 126
total kinetic energy of merged binaries due tosupernove explosion and natal kick (MC units)

name: ekicktb2, type: DOUBLE, column: 127
total kinetic energy of second binary componentafter supernove explosion and binary disruption(only binaries) (MC units)

name: ekicktwd, type: DOUBLE, column: 128
total kinetic energy of wd after natal kicks (MCunits)

name: ikickt, type: INTEGER, column: 129
total number of ns/bh after supernove explosion andnatal kick (only single stars)

name: ikicktbs, type: INTEGER, column: 130
total number of binary cm after supernove explosionand natal kick (only binaries)

name: ikicktbd, type: INTEGER, column: 131
total number of binary components after binarydisruption due to supernove axplosion and natal kick(only binaries)

name: ikicktbm, type: INTEGER, column: 132
total number of merged binaries due to supernoveexplosion and natal kicks

name: ikicktwd, type: INTEGER, column: 133
total number of wd natal kicks

name: ntsn1, type: INTEGER, column: 134
total number of ns/bh removed from the system after snnatal kick

name: ntsn2, type: INTEGER, column: 135
total number of merged binaries removed from thesystem after sn natal kick

name: ntsnb, type: INTEGER, column: 136
total number of binaries removed from the systemafter sn natal kick

name: ntsn3, type: INTEGER, column: 137
total number of first binary components removed fromthe system after sn natal kick

name: ntsn4, type: INTEGER, column: 138
total number of second binary components removedfrom the system after sn natal kick

name: ntwd1, type: INTEGER, column: 139
total number of wd removed from the system after wdnatal kicks

name: lhg, type: INTEGER, column: 144
actual number of single hertzsprung_gap stars

name: lgb, type: INTEGER, column: 145
actual number of single giant_branch stars

name: lch, type: INTEGER, column: 146
actual number of single core_helium stars

name: lfag, type: INTEGER, column: 147
actual number of single first_agb stars

name: lsag, type: INTEGER, column: 148
actual number of single second_agb stars

name: lhms, type: INTEGER, column: 149
actual number of single helium_ms stars

name: lhhg, type: INTEGER, column: 150
actual number of single helium_hg stars

name: lhgb, type: INTEGER, column: 151
actual number of single helium_gb stars

name: lot, type: INTEGER, column: 152
actual number of single stars out of mainsequence

name: l2wd, type: INTEGER, column: 153
actual number of wd-wd binaries

name: l2ns, type: INTEGER, column: 154
actual number of ns-ns binaries

name: l2bh, type: INTEGER, column: 155
actual number of bh-bh binaries

name: lmsms, type: INTEGER, column: 156
actual number of ms-ms binaries

name: lwdms, type: INTEGER, column: 157
actual number of wd-ms binaries

name: lwdns, type: INTEGER, column: 158
actual number of wd-ns binaries

name: lwdbh, type: INTEGER, column: 159
actual number of wd-bh binaries

name: lwdot, type: INTEGER, column: 160
actual number of wd-out of ms binaries

name: lnsms, type: INTEGER, column: 161
actual number of ns-ms binaries

name: lnsbh, type: INTEGER, column: 162
actual number of ns-bh binaries

name: lnsot, type: INTEGER, column: 163
actual number of ns-out of ms binaries

name: lbhms, type: INTEGER, column: 164
actual number of bh-ms binaries

name: lbhot, type: INTEGER, column: 165
actual number of bh-out of ms binaries

name: ldgdg, type: INTEGER, column: 166
actual number of degenerate-degenerate binaries

name: ldgot, type: INTEGER, column: 167
actual number of degenerate-out binaries

name: lmsot, type: INTEGER, column: 168
actual number of ms-out of ms binaries

name: lotot, type: INTEGER, column: 169
actual number of out of ms-out of ms binaries

name: lbh2, type: INTEGER, column: 170
actual number of bh formed in collisions

name: lbh3, type: INTEGER, column: 171
actual number of bh formed in binary mergers

name: xhg, type: DOUBLE, column: 176
mass of single hertzsprung_gap stars

name: xgb, type: DOUBLE, column: 177
msss of single giant_branch stars

name: xch, type: DOUBLE, column: 178
mass of single core_helium stars

name: xsag, type: DOUBLE, column: 180
mass of single second_agb stars

name: xot, type: DOUBLE, column: 184
mass of stars out of main sequence in Msun

name: xmsms, type: DOUBLE, column: 185
mass of ms-ms binaries in Msun

name: xwdwd, type: DOUBLE, column: 186
mass of wd-wd binaries in Msun

name: xnsns, type: DOUBLE, column: 187
mass of ns-ns binaries in Msun

name: xbhbh, type: DOUBLE, column: 188
mass of bh-bh binaries in Msun

name: xwdms, type: DOUBLE, column: 189
mass of wd-ms binaries in Msun

name: xnsms, type: DOUBLE, column: 193
mass of ns-ms binaries in Msun

name: xbhms, type: DOUBLE, column: 196
mass of bh-ms binaries in Msun

name: xdgdg, type: DOUBLE, column: 198
mass of degenerate-degenerate binaries in Msun

name: xdgot, type: DOUBLE, column: 199
mass of degenerate-out of ms binaries in Msun

name: xmsot, type: DOUBLE, column: 200
mass of ms-out of ms binaries in Msun

name: xotot, type: DOUBLE, column: 201
mass of out of ms-out of ms binaries in Msun

name: nbinrc, type: INTEGER, column: 202
number of binaries inside rc

name: nbinrchut2, type: INTEGER, column: 203
number of binaries inside rchut2

name: nbin1, type: INTEGER, column: 204
number of binaries inside r1%

name: nbin10, type: INTEGER, column: 205
number of binaries inside r1% < r < r10%

name: nbin50, type: INTEGER, column: 206
number of binaries inside r10% < r < r50%

name: nbinrt, type: INTEGER, column: 207
number of binaries inside r50% < r < rt

name: xmbinrc, type: DOUBLE, column: 208
mass of binaries inside rc in Msun

name: xmbinrchut2, type: DOUBLE, column: 209
mass of binaries inside rchut2 in Msun

name: xmbin1, type: DOUBLE, column: 210
mass of binaries inside r1% in Msun

name: xmbin10, type: DOUBLE, column: 211
mass of binaries inside r1% < r < r10% in Msun

name: xmbin50, type: DOUBLE, column: 212
mass of binaries inside r10% < r < r50% in Msun

name: xmbinrt, type: DOUBLE, column: 213
mass of binaries inside r50% < r < rt in Msun

name: xebinrc, type: DOUBLE, column: 214
binding energy of binaries inside rc (MC units)

name: xebinrchut2, type: DOUBLE, column: 215
binding energy of binaries inside rchut2 (MC units)

name: xebin1, type: DOUBLE, column: 216
binding energy of binaries inside r1% (MC units)

name: xebin10, type: DOUBLE, column: 217
binding energy of binaries inside r1% < r < r10% (MCunits)

name: xebin50, type: DOUBLE, column: 218
binding energy of binaries inside r10% < r < r50% (MCunits)

name: xebinrt, type: DOUBLE, column: 219
binding energy of binaries inside r50% < r < rt (MCunits)

name: ntridisr, type: INTEGER, column: 220
total number of triples manually disrupted afterfewbody numerical integration

name: ntridisr2, type: INTEGER, column: 221
total number of quadruples manually disrupted afterfewbody numerical integration

name: iebinkt01, type: INTEGER, column: 222
number of binaries with binding energy smaller than0.1kT

name: ilostdis3, type: INTEGER, column: 223
number of binaries manually disrupted usingHeggie's probability formula or mean core distanceor some other criterion (binary-single case)

name: ilostMar0, type: INTEGER, column: 224
number triples and quadruple when mardlingcriterion is not fulfilled

name: ilostMar1, type: INTEGER, column: 225
number triples and quadruple when mardlingcriterion is fulfilled

name: ilostCpuMax, type: INTEGER, column: 226
number of interactions not finished after 10 CPU s

name: fbCases1, type: INTEGER, column: 227
number of all dynamical interactions

name: fbCases3, type: INTEGER, column: 228
number of binary-star interactions --> 1 2 3

name: fbCases4, type: INTEGER, column: 229
number of binary-binary interactions --> 1 2 3 4

name: fbCases11, type: INTEGER, column: 230
number of binary-star interactions --> [1 2] 3

name: fbCases12, type: INTEGER, column: 231
number of binary-binary interactions --> [1 2] 3 4

name: fbCases20, type: INTEGER, column: 232
number of binary-binary interactions --> [1 2] [3 4]

name: fbCases31, type: INTEGER, column: 233
number of binary-star interactions --> [3 2] 1

name: fbCases32, type: INTEGER, column: 234
number of binary-binary interactions --> [3 2] 1 4

name: fbCases60, type: INTEGER, column: 235
number of binary-binary interactions --> [3 2] [1 4]

name: fbCases100, type: INTEGER, column: 236
number of [1 2] 3 -> 1:2:3 OR [1 2] [3 4] -> 1:2:3:4

name: fbCases101, type: INTEGER, column: 237
number of [1 2] 3 -> 1:2 3 OR [1 2] [3 4] -> 1:2:3 4

name: fbCases102, type: INTEGER, column: 238
number of binary-binary interactions --> 1:2 3 4

name: fbCases110, type: INTEGER, column: 239
number of binary-binary interactions --> 1:2 [3 4]

name: fbCases130, type: INTEGER, column: 240
number of binary-star interactions --> 1:3 [2 4]

name: fbCases330, type: INTEGER, column: 241
number of binary-star interactions --> [1:3 2]

name: fbCases331, type: INTEGER, column: 242
number of binary-star interactions --> [1:3 2] 4

name: fbCases630, type: INTEGER, column: 243
number of binary-binary interactions --> [1:3 2:4]

name: nescm, type: INTEGER, column: 244
total number of massless objects removed from thesystem

name: ivnewg, type: INTEGER, column: 245
number of relaxation events when 'vnew' is < 0

name: ivrr, type: INTEGER, column: 246
total number of relaxed objects from time = 0

name: enrad, type: DOUBLE, column: 247
total energy correction due to problems with thedetermination of the new velocity in the relaxationstep in MC units

name: ebinkt0001, type: DOUBLE, column: 248
total binding energy of binaries with binding energysmaller than 0.1kT (MC units)

name: elostdis, type: DOUBLE, column: 249
binding energy lost during manual disruption usingHeggie's probability formula or mean core distanceor some other criterion (MC units)

name: elostMar1, type: DOUBLE, column: 250
energy lost during manual disruption of triple andquadruple when mardling criterion is fulfilled (MCunits)

name: elostMar0, type: DOUBLE, column: 251
energy lost during manual disruption of triple andquadruple when mardling criterion is NOT fulfilled(MC units)

name: elostCpuMax, type: DOUBLE, column: 252
energy lost during manual disruption of triple andquadruple when CPU > max [sec] (MC units)

name: nsuzon, type: INTEGER, column: 253
number of super-zones in the cluster

name: smtrt, type: DOUBLE, column: 254
mass of stars outside the tidal radius in Msun

name: ntrt, type: INTEGER, column: 255
number of stars outside the tidal radius

name: thspitzer, type: DOUBLE, column: 256
spitzer half-mass relaxation time in Myr

name: cpurelaxall, type: DOUBLE, column: 257
CPU time in second spent in relaxall function

name: cpurelax, type: DOUBLE, column: 258
CPU time in second spent in relax function

name: cpubs, type: DOUBLE, column: 259
CPU time in second spent in intb3f function

name: cpubb, type: DOUBLE, column: 260
CPU time in second spent in intb3b3 function

name: cpucoepot, type: DOUBLE, column: 261
CPU time in second spent in coepot function

name: cputimepot, type: DOUBLE, column: 262
CPU time in second spent in timepot function

name: cpuss, type: DOUBLE, column: 263
CPU time in second spent in intcol function

name: cpuformb3, type: DOUBLE, column: 264
CPU time in second spent in formb3 function

name: cpuescape, type: DOUBLE, column: 265
CPU time in second spent in escape function

name: cpuoutput, type: DOUBLE, column: 266
CPU time in second spent in output function

name: cpuprofiles, type: DOUBLE, column: 267
CPU time in second spent in profiles function

name: cpuoutput1, type: DOUBLE, column: 268
CPU time in second spent in output1 function

name: cpusnap, type: DOUBLE, column: 269
CPU time in second spent in snapshot function

name: cpumloss, type: DOUBLE, column: 270
CPU time in second spent in output-mloss function

name: cpumlossjarr, type: DOUBLE, column: 271
CPU time in second spent in mloss-jarrod function

name: cpuprofiles1, type: DOUBLE, column: 272
CPU time in second spent in profiles1 function

name: cpufb, type: DOUBLE, column: 273
CPU time in second spent in Fewbody function

name: cputree, type: DOUBLE, column: 274
CPU time in second spent in kdetree function

name: cpumlosssin, type: DOUBLE, column: 275
CPU time in second spent in mloss_single function

name: fbrestarts, type: INTEGER, column: 276
number of restarted Fewbody interactions

name: fbunfinished, type: INTEGER, column: 277
number of Fewbody interactions which were notfinished with good enough energy conservation

name: fbmaxcpu, type: INTEGER, column: 278
number of Fewbody interaction which were finisheddue to max 10 seconds limitation

name: fbnoremnant, type: INTEGER, column: 279
number of no_remnant object created for multiplemergers after calling Fewbody

name: outputId, type: INTEGER, column: 280
output ID, it's unique for whole simulation

name: fbksrestarts, type: INTEGER, column: 281
Fewbody restarts count with KS = 1

name: fbbrestarts, type: INTEGER, column: 282
Fewbody restarts count with impact parameterincreased by 10%

name: totl, type: DOUBLE, column: 283
total cluster luminosity in Lsun

name: rbh10, type: DOUBLE, column: 284
10% lagrangian radius for single BHs

name: rbh50, type: DOUBLE, column: 285
50% lagrangian radius for single BHs

name: rbh70, type: DOUBLE, column: 286
70% lagrangian radius for single BHs

name: rbh210, type: DOUBLE, column: 289
10% lagrangina radius for BH in binaries and single

name: rbh250, type: DOUBLE, column: 290
50% lagrangina radius for BH in binaries and single

name: rbh270, type: DOUBLE, column: 291
70% lagrangina radius for BH in binaries and single

name: rbc10, type: DOUBLE, column: 294
10% lagrangina radius for binaries with period < 10d

name: rbc50, type: DOUBLE, column: 295
50% lagrangina radius for binaries with period < 10d

name: rbc70, type: DOUBLE, column: 296
70% lagrangina radius for binaries with period < 10d

name: smbc, type: DOUBLE, column: 297
mass of all binaries with period < 10d

name: kbc, type: INTEGER, column: 298
number of all binaries with period < 10d

name: rbs10, type: DOUBLE, column: 299
10% lagrangina radius for binaries with period > 10d

name: rbs50, type: DOUBLE, column: 300
50% lagrangina radius for binaries with period > 10d

name: rbs70, type: DOUBLE, column: 301
70% lagrangina radius for binaries with period > 10d

name: smbs, type: DOUBLE, column: 302
mass of all binaries with period > 10d

name: kbs, type: INTEGER, column: 303
number of all binaries with period > 10d

name: rbhm10, type: DOUBLE, column: 304
10% lagrangina radius for binaries with mass >2average mass*

name: rbhm50, type: DOUBLE, column: 305
50% lagrangina radius for binaries with mass >2average mass*

name: rbhm70, type: DOUBLE, column: 306
70% lagrangina radius for binaries with mass >2average mass*

name: smbhm, type: DOUBLE, column: 307
mass of all binaries with mass > 2average mass*

name: kbhm, type: INTEGER, column: 308
number of all binaries with mass > 2average mass*

name: rblm10, type: DOUBLE, column: 309
10% lagrangina radius for binaries with mass <2average mass*

name: rblm50, type: DOUBLE, column: 310
50% lagrangina radius for binaries with mass <2average mass*

name: rblm70, type: DOUBLE, column: 311
70% lagrangina radius for binaries with mass <2average mass*

name: smblm, type: DOUBLE, column: 312
mass of all binaries with mass < 2average mass*

name: kblm, type: INTEGER, column: 313
number of all binaries with mass < 2average mass*

name: rimbh10, type: DOUBLE, column: 314
10% lagrangina radius for all objects without IMBH

name: rimbh50, type: DOUBLE, column: 315
50% lagrangina radius for all objects without IMBH

name: rimbh70, type: DOUBLE, column: 316
70% lagrangina radius for all objects without IMBH

name: smimbh, type: DOUBLE, column: 317
mass of the system without IMBH

name: kimbh, type: INTEGER, column: 318
number of all objects without IMB

name: rbss10, type: DOUBLE, column: 319
10% lagrangina radius for BSS

name: rbss50, type: DOUBLE, column: 320
50% lagrangina radius for BSS

name: rbss70, type: DOUBLE, column: 321
70% lagrangina radius for BSS

name: rbcv10, type: DOUBLE, column: 324
10% lagrangina radius for all CVs

name: rbcv50, type: DOUBLE, column: 325
50% lagrangina radius for all CVs

name: rbcv70, type: DOUBLE, column: 326
70% lagrangina radius for all CVs

name: rbcv110, type: DOUBLE, column: 329
10% lagrangina radius for MS-WD CVs

name: rbcv150, type: DOUBLE, column: 330
50% lagrangina radius for MS-WD CVs

name: rbcv170, type: DOUBLE, column: 331
70% lagrangina radius for MS-WD CVs

name: rbcv210, type: DOUBLE, column: 334
10% lagrangina radius for WD-WD CVs

name: rbcv250, type: DOUBLE, column: 335
50% lagrangina radius for WD-WD CVs

name: rbcv270, type: DOUBLE, column: 336
70% lagrangina radius for WD-WD CVs

name: r1popMix, type: DOUBLE, column: 348
r1% lagr for population mix

name: r10popMix, type: DOUBLE, column: 349
r10% lagr for population mix

name: r70popMix, type: DOUBLE, column: 351
r70% lagr for population mix

name: arcpop1, type: DOUBLE, column: 352
avg mass for rc for population 1

name: archut2pop1, type: DOUBLE, column: 353
avg mass for rchut2 for population 1

name: ar1pop1, type: DOUBLE, column: 354
avg mass for r1% lagr for population 1

name: ar10pop1, type: DOUBLE, column: 355
avg mass for r10% lagr for population 1

name: arhpop1, type: DOUBLE, column: 356
avg mass for r_h for population 1

name: ar70pop1, type: DOUBLE, column: 357
avg mass for r70% lagr for population 1

name: arcpop2, type: DOUBLE, column: 358
avg mass for rc for population 2

name: archut2pop2, type: DOUBLE, column: 359
avg mass for rchut2 for population 2

name: ar1pop2, type: DOUBLE, column: 360
avg mass for r1% lagr for population 2

name: ar10pop2, type: DOUBLE, column: 361
avg mass for r10% lagr for population 2

name: arhpop2, type: DOUBLE, column: 362
avg mass for r_h for population 2

name: ar70pop2, type: DOUBLE, column: 363
avg mass for r70% lagr for population 2

name: arcpopMix, type: DOUBLE, column: 364
avg mass for rc for population mix

name: archut2popMix, type: DOUBLE, column: 365
avg mass for rchut2 for population mix

name: ar1popMix, type: DOUBLE, column: 366
avg mass for r1% lagr for population mix

name: ar10popMix, type: DOUBLE, column: 367
avg mass for r10% lagr for population mix

name: arhpopMix, type: DOUBLE, column: 368
avg mass for r_h for population mix

name: ar70popMix, type: DOUBLE, column: 369
avg mass for r70% lagr for population mix

name: nescb3pop1, type: INTEGER, column: 370
total number of escaped binaries for pop 1

name: nescb3pop2, type: INTEGER, column: 371
total number of escaped binaries for pop 2

name: nescb3popMix, type: INTEGER, column: 372
total number of escaped binaries for pop Mix

name: nesb3spop1, type: INTEGER, column: 373
total number of star escapers because ofinteractions for pop1

name: nesb3spop2, type: INTEGER, column: 374
total number of star escapers because ofinteractions for pop2

name: nesb3spopMix, type: INTEGER, column: 375
total number of star escapers because ofinteractions for popMix

name: ndist3pop1, type: INTEGER, column: 376
total number of dissolved binaries (bin-sin, pop 1)

name: ndist3pop2, type: INTEGER, column: 377
total number of dissolved binaries (bin-sin, pop 2)

name: ndist3popMix, type: INTEGER, column: 378
total number of dissolved binaries (bin-sin, popMix)

name: ndist4pop1, type: INTEGER, column: 379
total number of dissolved binaries (bin-bin, pop 1)

name: ndist4pop2, type: INTEGER, column: 380
total number of dissolved binaries (bin-bin, pop 2)

name: ndist4popMix, type: INTEGER, column: 381
total number of dissolved binaries (bin-bin, popMix)

name: ndistepop1, type: INTEGER, column: 382
total number of dissolved binaries (binEvol, pop 1)

name: ndistepop2, type: INTEGER, column: 383
total number of dissolved binaries (binEvol, pop 2)

name: ndistepopMix, type: INTEGER, column: 384
total number of dissolved binaries (binEvol, popMix)

name: nmerg3pop1, type: INTEGER, column: 385
total number of merged binaries (bin-sin, pop 1)

name: nmerg3pop2, type: INTEGER, column: 386
total number of merged binaries (bin-sin, pop 2)

name: nmerg3popMix, type: INTEGER, column: 387
total number of merged binaries (bin-sin, pop Mix)

name: nmerg4pop1, type: INTEGER, column: 388
total number of merged binaries (bin-bin, pop 1)

name: nmerg4pop2, type: INTEGER, column: 389
total number of merged binaries (bin-bin, pop 2)

name: nmerg4popMix, type: INTEGER, column: 390
total number of merged binaries (bin-bin, pop Mix)

name: nmergepop1, type: INTEGER, column: 391
total number of merged binaries (binEvol, pop 1)

name: nmergepop2, type: INTEGER, column: 392
total number of merged binaries (binEvol, pop 2)

name: nmergepopMix, type: INTEGER, column: 393
total number of merged binaries (binEvol, pop Mix)

name: kickloss, type: DOUBLE, column: 394
kick mass loss is counted separately (not through thesloses variable)

name: timenr, type: INTEGER, column: 395
timestep as an integer number, it starts with 0 and itis increased by 1 after finishing the full timestep ofMOCCA. It is needed to easily join differ ent tables ofMOCCA output with each other.

name: pop1c, type: INTEGER, column: 396
number of stars (not objects) from population 1

name: pop2c, type: INTEGER, column: 397
number of stars (not objects) from population 2

name: popMixc, type: INTEGER, column: 398
number of stars (not objects) from mixed population

name: pop1b, type: INTEGER, column: 399
number of binaries from population 1

name: pop2b, type: INTEGER, column: 400
number of binaries from population 2

name: popMixb, type: INTEGER, column: 401
number of binaries from mixed population

name: tphysDiff, type: DOUBLE, column: 402
overall time-step (tphys - tphysLast)

name: semiDetBH, type: INTEGER, column: 403
number of semi-detached binaries with BH

name: semiDetNS, type: INTEGER, column: 404
number of semi-detached binaries with NS

name: semiDetWD, type: INTEGER, column: 405
number of semi-detached binaries with WD

name: semiDetBHm, type: DOUBLE, column: 406
total mass of semi-detached binaries with BH

name: semiDetNSm, type: DOUBLE, column: 407
total mass of semi-detached binaries with NS

name: semiDetWDm, type: DOUBLE, column: 408
total mass of semi-detached binaries with WD

name: iobt, type: INTEGER, column: 409
total number of obliterated object

name: bsPop1, type: INTEGER, column: 410
number of started bin-sin interactions (pop1)

name: bsPop2, type: INTEGER, column: 411
number of started bin-sin interactions (pop2)

name: bsPopMix, type: INTEGER, column: 412
number of started bin-sin interactions (popMix)

name: bbPop1, type: INTEGER, column: 413
number of started bin-bin interactions (pop1)

name: bbPop2, type: INTEGER, column: 414
number of started bin-bin interactions (pop2)

name: bbPopMix, type: INTEGER, column: 415
number of started bin-bin interactions (popMix)

name: colPop1, type: INTEGER, column: 416
number of collision interactions (pop1)

name: colPop2, type: INTEGER, column: 417
number of collision interactions (pop2)

name: colPopMix, type: INTEGER, column: 418
number of collision interactions (popMix)

name: formPop1, type: INTEGER, column: 419
number of binary formation interactions (pop1)

name: formPop2, type: INTEGER, column: 420
number of binary formation interactions (pop2)

name: formPopMix, type: INTEGER, column: 421
number of binary formation interactions (popMix)

name: obsBinFrac, type: DOUBLE, column: 422
Observational binary fraction asN_binary/(N_stars + N_binaries).N_binary is a number of observational binaries, defined as a binary:1. consisting of two MS stars2. with more massive star > 0.4 MSun3. with mass ratio q > 0.54. with more massive star being less than M_turnoff.N_stars is an observatio
nal single star, defined as a star:1. which is a MS star2. with mass > 0.4 MSun.

name: obsBinFracMS, type: DOUBLE, column: 423
Observational binary fraction for MS stars: asN_ms-ms/(N_ms-ms + N_ms).N_ms-ms is a number of observational MS-MS binaries, defined as a binary:1. co nsisting of two MS stars2. with any mass.N_ms is an observational MS single star, defined as a star:1. which is a MS star2. with any mass.

name: escbh, type: INTEGER, column: 424
total number of BHs escaped from the system

name: binEvolMix, type: DOUBLE, column: 425
number of mass transfer events in binary evolutionwhich create mixed population or mass transfer eventswhich occured already for mixed population sta rs

name: pop1cMS, type: INTEGER, column: 426
number of MS stars from population 1(computed separately star by star, not as bound objects)

name: pop2cMS, type: INTEGER, column: 427
number of MS stars from population 2(computed separately star by star, not as bound objects)

name: popMixcMS, type: INTEGER, column: 428
number of MS stars from mixed population(computed separately star by star, not as bound objects)

name: pop1cMSout, type: INTEGER, column: 429
number of out-of-MS stars from population 1(computed separately star by star, not as bound objects)

name: pop2cMSout, type: INTEGER, column: 430
number of out-of-MS stars from population 2(computed separately star by star, not as bound objects)

name: popMixcMSout, type: INTEGER, column: 431
number of out-of-MS stars from mixed population(computed separately star by star, not as bound objects)

name: pop1cWD, type: INTEGER, column: 432
number of WD stars from population 1(computed separately star by star, not as bound objects)

name: pop2cWD, type: INTEGER, column: 433
number of WD stars from population 2(computed separately star by star, not as bound objects)

name: popMixcWD, type: INTEGER, column: 434
number of WD stars from mixed population(computed separately star by star, not as bound objects)

name: pop1cNS, type: INTEGER, column: 435
number of NS stars from population 1(computed separately star by star, not as bound objects)

name: pop2cNS, type: INTEGER, column: 436
number of NS stars from population 2(computed separately star by star, not as bound objects)

name: popMixcNS, type: INTEGER, column: 437
number of NS stars from mixed population(computed separately star by star, not as bound objects)

name: pop1cBH, type: INTEGER, column: 438
number of BH stars from population 1(computed separately star by star, not as bound objects)

name: pop2cBH, type: INTEGER, column: 439
number of BH stars from population 2(computed separately star by star, not as bound objects)

name: popMixcBH, type: INTEGER, column: 440
number of BH stars from mixed population(computed separately star by star, not as bound objects)

name: influSin, type: DOUBLE, column: 441
number of single stars in IMBH influence radius

name: influBin, type: DOUBLE, column: 442
number of binaries in IMBH influence radius

name: influSinNS, type: DOUBLE, column: 443
number of single NSs in IMBH influence radius

name: influBinNS, type: DOUBLE, column: 444
number of binaries with NSs in IMBH influence radius

name: influSinBH, type: DOUBLE, column: 445
number of single BHs in IMBH influence radius

name: influBinBH, type: DOUBLE, column: 446
number of binaries with BHs in IMBH influence radius

name: influSinWD, type: DOUBLE, column: 447
number of single WDs in IMBH influence radius

name: influBinWD, type: DOUBLE, column: 448
number of binaries with WDs in IMBH influence radius

name: influSinMSout, type: DOUBLE, column: 449
number of single out-ofMS in IMBH influence radius

name: influBinMSout, type: DOUBLE, column: 450
number of binaries with out-ofMS in IMBH influenceradius

name: influSinMS, type: DOUBLE, column: 451
number of single MS in IMBH influence radius

name: influBinMS, type: DOUBLE, column: 452
number of binaries with MS in IMBH influenceradius

name: influSinm, type: DOUBLE, column: 453
mass of single stars in IMBH influence radius

name: influBinm, type: DOUBLE, column: 454
mass of binaries in IMBH influence radius

name: influSinNSm, type: DOUBLE, column: 455
mass of single NSs in IMBH influence radius

name: influBinNSm, type: DOUBLE, column: 456
mass of binaries with NSs in IMBH influence radius

name: influSinBHm, type: DOUBLE, column: 457
mass of single BHs in IMBH influence radius

name: influBinBHm, type: DOUBLE, column: 458
mass of binaries with BHs in IMBH influence radius

name: influSinWDm, type: DOUBLE, column: 459
mass of single WDs in IMBH influence radius

name: influBinWDm, type: DOUBLE, column: 460
mass of binaries with WDs in IMBH influence radius

name: influSinMSoutm, type: DOUBLE, column: 461
mass of single out-ofMS in IMBH influence radius

name: influBinMSoutm, type: DOUBLE, column: 462
mass of binaries with out-ofMS in IMBH influenceradius

name: influSinMSm, type: DOUBLE, column: 463
mass of single MS in IMBH influence radius

name: influBinMSm, type: DOUBLE, column: 464
mass of binaries with MS in IMBH influenceradius

name: aplusPop1, type: DOUBLE, column: 465
A parameter for pop 1 (all non compact stars)

name: aplusPop2, type: DOUBLE, column: 466
A parameter for pop 2 (all non compact stars)

name: aplusPopMix, type: DOUBLE, column: 467
A parameter for mixed pop (all non compact stars)

name: t0merge, type: DOUBLE, column: 468
number of binaries merged at the time T=0 (after justreading the data)

name: nescspop1, type: INTEGER, column: 469
total number of escaped singles for pop 1

name: nescspop2, type: INTEGER, column: 470
total number of escaped singles for pop 2

name: nescspopMix, type: INTEGER, column: 471
total number of escaped singles for pop Mix

name: bhsinfluSin, type: INTEGER, column: 472
number of single stars in BH subsystem influence radius

name: bhsinfluBin, type: INTEGER, column: 473
number of binaries in BH subsystem influence radius

name: bhsinfluSinNS, type: INTEGER, column: 474
number of single NSs in BH subsystem influence radius

name: bhsinfluBinNS, type: INTEGER, column: 475
number of binaries with NSs in BH subsystem influence radius

name: bhsinfluSinBH, type: INTEGER, column: 476
number of single BHs in BH subsystem influence radius

name: bhsinfluBinBH, type: INTEGER, column: 477
number of binaries with BHs in BH subsystem influence radius

name: bhsinfluSinWD, type: INTEGER, column: 478
number of single WDs in BH subsystem influence radius

name: bhsinfluBinWD, type: INTEGER, column: 479
number of binaries with WDs in BH subsystem influence radius

name: bhsinfluSinMSout, type: INTEGER, column: 480
number of single out-ofMS in BH subsystem influence radius

name: bhsinfluBinMSout, type: INTEGER, column: 481
number of binaries with out-ofMS in BH subsystem influenceradius

name: bhsinfluSinMS, type: INTEGER, column: 482
number of single MSs in BH subsystem influence radius

name: bhsinfluBinMS, type: INTEGER, column: 483
number of binaries with MSs in BH subsystem influence radius

name: bhsinfluSinm, type: DOUBLE, column: 484
mass of single stars in BH subsystem influence radius

name: bhsinfluBinm, type: DOUBLE, column: 485
mass of binaries in BH subsystem influence radius

name: bhsinfluSinNSm, type: DOUBLE, column: 486
mass of single NSs in BH subsystem influence radius

name: bhsinfluBinNSm, type: DOUBLE, column: 487
mass of binaries with NSs in BH subsystem influence radius

name: bhsinfluSinBHm, type: DOUBLE, column: 488
mass of single BHs in BH subsystem influence radius

name: bhsinfluBinBHm, type: DOUBLE, column: 489
mass of binaries with BHs in BH subsystem influence radius

name: bhsinfluSinWDm, type: DOUBLE, column: 490
mass of single WDs in BH subsystem influence radius

name: bhsinfluBinWDm, type: DOUBLE, column: 491
mass of binaries with WDs in BH subsystem influence radius

name: bhsinfluSinMSoutm, type: DOUBLE, column: 492
mass of single out-ofMS in BH subsystem influence radius

name: bhsinfluBinMSoutm, type: DOUBLE, column: 493
mass of binaries with out-ofMS in BH subsystem influenceradius

name: bhsinfluSinMSm, type: DOUBLE, column: 494
mass of single MSs in BH subsystem influence radius

name: bhsinfluBinMSm, type: DOUBLE, column: 495
mass of binaries with MSs in BH subsystem influence radius

name: pop1oc, type: INTEGER, column: 496
number of bound objects from population 1

name: pop2oc, type: INTEGER, column: 497
number of bound objects from population 2

name: popMixoc, type: INTEGER, column: 498
number of bound objects from mixed population

name: nEscSinRel, type: INTEGER, column: 499
total number of single star escapers because ofrelaxation

name: rns10, type: DOUBLE, column: 500
10% lagrangian radius for single NSs

name: rns50, type: DOUBLE, column: 501
50% lagrangian radius for single NSs

name: rns70, type: DOUBLE, column: 502
70% lagrangian radius for single NSs

name: rns210, type: DOUBLE, column: 505
10% lagrangina radius for NS in binaries and single

name: rns250, type: DOUBLE, column: 506
50% lagrangina radius for NS in binaries and single

name: rns270, type: DOUBLE, column: 507
70% lagrangina radius for NS in binaries and single

name: bhSubInflu, type: DOUBLE, column: 510
influence radius for BH subsystem

name: sturnm, type: DOUBLE, column: 511
sturn mass computed by standalone_turnoff function

name: ilostdis4, type: INTEGER, column: 512
number of binaries manually disrupted usingEbind

name: rwd10, type: DOUBLE, column: 513
10% lagrangian radius for single WDs

name: rwd50, type: DOUBLE, column: 514
50% lagrangian radius for single WDs

name: rwd70, type: DOUBLE, column: 515
70% lagrangian radius for single WDs

name: smwd, type: DOUBLE, column: 516
mass of all single WDs

name: kwd, type: INTEGER, column: 517
number of all single WDs

name: rwd210, type: DOUBLE, column: 518
10% lagrangina radius for WD in binaries and single

name: rwd250, type: DOUBLE, column: 519
50% lagrangina radius for WD in binaries and single

name: rwd270, type: DOUBLE, column: 520
70% lagrangina radius for WD in binaries and single

name: smwd2, type: DOUBLE, column: 521
mass of all WDs in binaries

name: kwd2, type: INTEGER, column: 522
number of all WDs in binaries

name: esrb3s, type: DOUBLE, column: 523
energy of star escapers - relaxation

name: slrb3s, type: DOUBLE, column: 524
mass loss of single stars due to relaxation

name: ererb3, type: DOUBLE, column: 525
energy of binary escapers - relaxation

name: errb3n, type: DOUBLE, column: 526
internal binding energy of binary escapers - relaxation (MC units)

name: slrb3b, type: DOUBLE, column: 527
mass loss of binaries due to relaxation

name: nescrs, type: INTEGER, column: 528
total number of star escapers due to relaxation

name: nesrb3, type: INTEGER, column: 529
total number of star escapers due to relaxation

name: igtrt, type: INTEGER, column: 530
total number of cases in which positions of relaxed starsare greater than the tidal radius - relaxation is not done

name: iplus1, type: INTEGER, column: 531
total number of cases in which i+1 is greater than lmaxin the relaxation loop - relaxation is not done

name: ikrel, type: INTEGER, column: 532
total number of cases in which the deflection angle isgreater than PI - relaxation is not done

name: vcl, type: DOUBLE, column: 533
central velocity dispersion in km/s (luminosity weighted)

name: u5, type: DOUBLE, column: 534
central potential for the 5th object (scalled to (km/s)^2)

name: u25, type: DOUBLE, column: 535
central potential for the 25th object (scalled to (km/s)^2)

name: u50, type: DOUBLE, column: 536
central potential for the 50th object (scalled to (km/s)^2)

name: u75, type: DOUBLE, column: 537
central potential for the 75th object (scalled to (km/s)^2)

name: u100, type: DOUBLE, column: 538
central potential for the 100th object (scalled to (km/s)^2)

Menu