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.KK2f_defaults
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BeginX
********************************************************************************
********************************************************************************
** **
** DEAFAULT INPUT DATA for KK Monte Carlo **
** >>>>> Never edit this file directly <<<<< **
** Your actual input data should be in a separate file. **
** The defaults will then be overwriten, if necessary. **
** **
** !!!!IMPORTANT!!!! **
** The data marked with \\\\\\ are for special tests or dip-switches tuning **
** the Monte Carlo integrations, they SHOULD BE NEVER CHANGED by the user, **
** without consulting the author of the program. **
** Changing them may lead to nonsense results. **
** **
********************************************************************************
********************************************************************************
* Generalities of the Monte-Carlo (low level)
*indx_____data______ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
* Center-of-mass energy [GeV]
1 100.0e0 cmsene =xpar( 1) Average Center of mass energy [GeV]
2 0.000e0 DelEne =xpar( 2) Beam energy spread [GeV]
3 5 ninp =xpar( 5) Input unit number (not used)
4 16 nout =xpar( 6) Output unit number
* PrintOut from generator
5 0 LevPri =xpar( 5) PrintOut Level 0,1,2
6 1 Ie1Pri =xpar( 6) PrintOut Start point
7 1 Ie2Pri =xpar( 7) PrintOut End point
* At present all internal monitoring fits into (idyfs+1,idyfs+100)
8 600\\\\\\IdYFS\\\\\\\\\\\\\pointer for internal histos\\\\\\\\\
*indx______data_____ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
9 1.0e0 WtMax =xpar( 9) Maximum weight for rejection
* KeyWgt=0 we get constant and for KeyWgt=1 variable weight events
10 0 KeyWgt=xpar(10) Deafault is 0
* IdeWgt IDENT of the EEX principal weight, not for CEEX! NEVER TOUCH IT!
11 74\\\\\\IdeWgt\\\\\\\\\\Deafault is 74, for O(alf3) M.E.\\\\\\
* KeyELW=0,1 Type of Elewctroweak corrections, KeyElw=0 only for tests
12 1 KeyELW=xpar(12) Deafault is 1, for Dizet
* KeyRes=0,1 Experim. R used to model rate of decay of gamma* and decay
13 0 KeyRes=xpar(13) Deafault is 0, dumb parton R
* Minimum and maximum v, where v = 1-sprim/s, v=1 alowed
16 1e-5 vvmin =xpar(16) may be put to vvmin < 1e-5
** IMPORTANT: vmax is the cut on v=1-s'/s where s' is not the mass^2 of the
** final state ffbar mass^2 but of the virtual object after ISR emission,
** and before FSR emission. It is obviously unphysical cut due to ISR*FSR interf.
17 1e0 vvmax =xpar(17) if 1e0 then reduced inside program
18 1e-3\\\\\\delfac\\\\\\\\\\\FSR cut eps=vvmin*delfac\\\\\\\\\\\\\
19 100\\\\\\hard-wired maximum photon multiplicity\\\\\\\\\\\\\\\\
********************************************************************************
** EQD/EW bremsstrahlung flags/data
20 1 KeyISR=xpar(20) Default is 1, for beams |<<<<|
21 1 KeyFSR=xpar(21) Default is 1, for all final fermions
*indx_____data______ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
**\\\\KeyPia = 0, NO removal of FSR photons below emin=Ene*delta in CMS\\\\\\\
**\\\\KeyPia = 1, WITH removal of FSR photons below emin=Ene*delta in CMS\\\\\\\
22 1\\\\\\KeyPia\\\\\\\\\\\Default is 1\\\\\\\\\\\\\\\\\\\\\\\\
**\\\\SPECIAL tests: fixed ISR multiplicity\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
23 0\\\\\\mltISR\\\\\\\\\\\Default is 0\\\\\\\\\\\\\\\\\\\\\\\\
**\\\\SPECIAL tests: fixed FSR multiplicity\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
24 0\\\\\\mltFSR\\\\\\\\\\\Default is 0\\\\\\\\\\\\\\\\\\\\\\\\
**\\\\KeyFix Type of ISR (=1 obsolete, see KarLud_Make, BornV_RhoFoamC)
25 0 =0 normal, =2 beamsstrahlung =3,4 for gaussian BES
*(\\\\SPECIAL tests: mass terms in crude MC photon distrib.\\\\\\\\\\\\\\\\\\\\\
26 0\\\\\\KeyWtm\\\\\\\\\\ Default is 0\\\\\\\\\\\\\\\\\\\\\\\\
** Interference ISR/FSR to be ON/OFF
27 2 KeyINT=xpar(27) Default is 2
** New exponentiation CEEX is now default, at least for leptons, see vmaxGPS
** which overrules KeyGPS for each type of final fermion
28 1 KeyGPS=xpar(28) Default is 1
** Photon emission from final QUARKS
29 1 KeyQSR=xpar(29) Default is 1
** Coupling constants etc.
30 137.035999139 alfinv=xpar(30) Inverse of alpha_QED at q^2=0
31 389.37966e3 gnanob=xpar(31) GeV^(-2) --> NanoBarn conversion
32 1.1663787e-5 Gfermi=xpar(32) Fermi coupling ( 1.16639e-5 [GeV^(-2)])
********************************************************************************
** Technical cuts and internal parameters
**\\\\\\\\\\\\\\\Enhancement factor for Crude photon multiplicity\\\\\\\\\\\\\\\
40 1.25e0\\\\\\Xenph =xpar(40)\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
41 1.e-9 vcut1 =xpar(41)\\Techn.cut: \\\\\\\\\\\\\\\\\\\\\\\\\\
42 5.e-2 vcut2 =xpar(42)\\Techn.cut: \\\\\\\\\\\\\\\\\\\\\\\\\\
43 0e0 vcut3 =xpar(43)\\Techn.cut: unused\\\\\\\\\\\\\\\\\\\\
********************************************************************************
** QCD flags/data
** Hardonization/showering flag, KeyHad=0,1 => hadronization OFF,ON.
50 1 KeyHad=xpar(50) Default is 1
** Minimum mass [GeV] for hadronization/showering
51 0.200e0 HadMin=xpar(51)
**
52 0.118e0 alfQCD=xpar(52) alpha_QCD
**
53 1e0 KeyQCD=xpar(53) Final state QCD factor ON/OFF, Default=1
********************************************************************************
** Note that for beam polariz. being active the CEEX has to be ON, see vmaxGPS and KeyGPS
** Beam polarization may require adjustment of WtWax, check overweighted events in output
61 0e0 spin1x polarization vector beam 1
62 0e0 spin1y polarization vector beam 1
63 0e0 spin1z polarization vector beam 1
64 0e0 spin1x polarization vector beam 2
65 0e0 spin1y polarization vector beam 2
66 0e0 spin1z polarization vector beam 2
********************************************************************************
* Beamstrahlung parameters for Thorsten Ohl's package CIRCE
71 350e0 IRCroots sqrt(s) [GeV] discrete values 350,500,800GeV
72 3e0 IRCacc
73 5e0 IRCver version
74 19980505e0 IRCdat date
75 1e0 IRCxchat printout level
**\\\\\writing vegas grid on the disk, KeyGrid=-1 create and dump, =+1 read\\\\\
76 0e0 KeyGrid=0 create, not read, default\\\\\\\\\\\\\\\\\\\\\\\
** Parameters for Gaussian BES (Beam Energy Spread) Default for Z peak
** From Patrick for E1 and E2 (in GeV): 45.6, 81., 120., 175., 182.5
** Typical values for half width s1 and s2 (in % of E): 0.132, 0.132, 0.165, 0.186
*indx_____data______ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
80 0.0e0 ParBES(0) E1=0 will be replaced by CMSene/2
81 0.0e0 ParBES(1) E2=0 will be replaced by CMSene/2
82 0.132e-2 ParBES(2) sigma1/E1
83 0.132e-2 ParBES(3) sigma2/E2
84 0.300e0 ParBES(3) rho correlation parameter, dimensionles
********************************************************************************
*indx_____data______ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
** Define process
** Beam flavour code
400 11 KFini = xpar(400) dont change it |<<<<|
** LIST of Final state flavours to be generated randomly according
** to QED corrected x-sections, at least one line/item should be present.
** (Remember that electron has incomplete M.E. and top might be too heavy.)
* 401 1 KFfin, d
* 402 1 KFfin, u
* 403 1 KFfin, s
* 404 1 KFfin, c
* 405 1 KFfin, b
***406 1 KFfin, t quark !!! do not use it!!!!
* 411 1 KFfin, electron
* 412 1 KFfin, neutrino electron
* 413 1 KFfin, muon
* 414 1 KFfin, neutrino muon
* 415 1 KFfin, tau
* 416 1 KFfin, neutrino tau
********************************************************************************
** Input for matrix element
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
**\\\\\KeyZet = 0, pure QED\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
**\\\\\KeyZet = 1, Z-boson and gamma are ON\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
**\\\\\KeyZet =-1, Z width Gamma is constant (only for CEEX)\\\\\\\\\\\\\\\\\\\\
**\\\\\KeyZet = 9, pure Z exchange\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
**\\\\\KeyZet =-2, Artificial constant x-section for SPECIAL test runs\\\\\\\\\\
501 1\\\\\\KeyZet=xpar(501) default is 1\\\\\\\\\\\\\\\\\\\\\\\\
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
** Mass and width of Z-boson [GeV]
502 91.1876e0 MZ =xpar(502) PDG 1996
** sin(thetaW)**2 where thetaW is electroweak mixing angle
503 .22276773e0 SwSq =xpar(503) sin_squared of EW angle, from Dizet
504 2.50072032e0 GammZ =xpar(504) Z width, from Dizet
505 80.358935e0 MW =xpar(505) W mass, from Dizet
506 2.08825837e0 GammW =xpar(506) W width, from Dizet
510 1e-60 MasPhot=xpar(510) photon mass, IR regulator
********************************************************************************
** PROPERTIES of Quarks and Leptons
** i-th position in xpar(i) according to i = 500+10*KFlavour +j
****** d-quark
511 1 KFlavour
512 3 NColor
513 -1 3*Q =3*charge
514 -1 2*T3L =2*Isospin for Left component
515 0 2*helicity, 0 for unpolarized
516 0.010e0 mass [GeV] (5-15MeV in PDG)
516 0.083e0 Constituent mass, for comparison with KoralZ !!!!!!!
517 5.0e0 WtMax Maximum weight for rejection d-quark
**518 0.99e0 auxiliary parameter vmaxGPS d-quark
518 20.00e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
****** u-quark
521 2 KFlavour
522 3 NColor
523 2 3*Q =3*charge
524 1 2*T3L =2*Isospin for Left component
525 0 2*helicity, 0 for unpolarized
526 0.062e0 mass [GeV] (2-8MeV in PDG)
526 0.100e0 Constituent mass, for comparison with KoralZ !!!!!!!
527 5.0e0 WtMax Maximum weight for rejection u-quark
**528 0.99e0 auxiliary parameter vmaxGPS u-quark
528 20.00e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
****** s-quark
531 3 KFlavour
532 3 NColor
533 -1 3*Q =3*charge
534 -1 2*T3L =2*Isospin for Left component
535 0 2*helicity, 0 for unpolarized
536 0.215e0 mass [GeV] (100-300MeV in PDG)
537 5.0e0 WtMax Maximum weight for rejection s-quark
**538 0.99e0 auxiliary parameter vmaxGPS s-quark
538 20.00e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
****** c-quark
541 4 KFlavour
542 3 NColor
543 2 3*Q =3*charge
544 1 2*T3L =2*Isospin for Left component
545 0 2*helicity, 0 for unpolarized
546 1.500e0 mass [GeV] (1.0-1.6 GeV in PDG)
547 5.0e0 WtMax Maximum weight for rejection c-quark
**548 0.99e0 auxiliary parameter vmaxGPS c-quark
548 20.00e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
****** b-quark
551 5 KFlavour
552 3 NColor
553 -1 3*Q =3*charge
554 -1 2*T3L =2*Isospin for Left component
555 0 2*helicity, 0 for unpolarized
556 4.700e0 mass [GeV] (4.1-4.5 GeV in PDG)
557 5.0e0 WtMax Maximum weight for rejection b-quark
**558 0.99e0 auxiliary parameter vmaxGPS b-quark
558 20.00e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
****** t-quark
561 6 KFlavour
562 3 NColor
563 2 3*Q =3*charge
564 1 2*T3L =2*Isospin for Left component
565 0 2*helicity, 0 for unpolarized
566 175.0e0 mass [GeV] (170-190GeV in PDG)
567 5.0e0 WtMax Maximum weight for rejection t-quark
**568 0.99e0 auxiliary parameter vmaxGPS t-quark
568 0.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
****** electron
611 11 KFlavour
612 1 NColor
613 -3 3*Q =3*charge
614 -1 2*T3L =2*Isospin for Left component
615 0 2*helicity
616 0.51099907e-3 mass [GeV] (0.51099907 MeV)
617 8.0e0 WtMax Maximum weight for rejection electron
**618 0.99e0 auxiliary parameter vmaxGPS
618 0.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
****** neutrino electron ----- NOT ACTIVE ------
621 12 KFlavour
622 1 NColor
623 0 3*Q =3*charge
624 1 2*T3L =2*Isospin for Left component
625 0 2*helicity
626 1e-30 mass [GeV]
627 3.5e0 WtMax Maximum weight for rejection neutrino electron
**628 1.0e0 auxiliary parameter vmaxGPS, CEEX always on
628 0.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
****** muon
631 13 KFlavour
632 1 NColor
633 -3 3*Q =3*charge
634 -1 2*T3L =2*Isospin for Left component
635 0 2*helicity
636 0.1056583e0 mass [GeV] (0.1056583 GeV)
637 8.0e0 WtMax Maximum weight for rejection muon
**638 0.999e0 auxiliary parameter vmaxGPS, CEEX up to a point
**638 6.3245553e0 MinMassCEEX = min. mass for CEEX, <- 0.999 at 200GeV
638 1.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
****** neutrino muon
641 14 KFlavour
642 1 NColor
643 0 3*Q =3*charge
644 1 2*T3L =2*Isospin for Left component
645 0 2*helicity
646 1e-30 mass [GeV]
647 3.5e0 WtMax Maximum weight for rejection neutrino muon
**648 1.0e0 auxiliary parameter vmaxGPS, CEEX always on
648 0.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
*indx_______________ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
****** tau
651 15 KFlavour
652 1 NColor
653 -3 3*Q =3*charge
654 -1 2*T3L =2*Isospin for Left component
655 0 2*helicity
656 1.77705e0 mass [GeV] (1.777 GeV)
657 8.0e0 WtMax Maximum weight for rejection tau
**658 1.0e0 auxiliary parameter vmaxGPS, CEEX always on
658 0.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
****** neutrino tau
661 16 KFlavour
662 1 NColor
663 0 3*Q =3*charge
664 1 2*T3L =2*Isospin for Left component
665 0 2*helicity
666 1e-30 mass [GeV]
667 3.5e0 WtMax Maximum weight for rejection neutrino tau
**668 1.0e0 auxiliary parameter vmaxGPS, CEEX always on
668 0.0e0 auxiliary parameter, MinMassCEEX = min. mass for CEEX
********************************************************************************
***** ****
***** Entries 800-999 reserved for Electroweak libraries ****
***** ****
********************************************************************************
*indx_____data______ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0ccccccccc0
801 1 Ibox=0,1, EW boxes off,on, input for Dizet
805 125.1e0 amh =xpar(805) Higgs mass, input for Dizet
806 173.0e0 amtop =xpar(806) Top mass, input for Dizet
808 128.86674175e0 alfinvMZ =xpar(808) alfQED(MZ), input for Dizet
809 0.1201789e0 alfQCDMZ =xpar(809) alfQCD(MZ), input for Dizet
* DIZET flags NPAR(i)=NPAR(900+i)
901 1 Ihvp ! =1,2,3 (Jegerlehner/Eidelman, Jegerlehner(1988), Burkhardt etal.)
902 4 Iamt4 ! =0,1,2,3,4 (=4 the best, Degrassi/Gambino)
903 3 Iqcd ! =1,2,3 (approx/fast/lep1, exact/Slow!/Bardin/, exact/fast/Kniehl)
904 1 Imoms ! =0,1 (=1 W mass recalculated)
905 0 Imass ! =0,1 (=1 test only, effective quark masses)
906 0 Iscre ! =0,1,2 ( Remainder terms,
907 3 Ialem ! =1,3 or 0,2, (for 1,3 DALH5 not input)
908 0 Imask ! =0,1 (=0: Quark masses everywhere; =1 Phys. threshold in the ph.sp.)
909 0 Iscal ! =0,1,2,3 ( Kniehl=1,2,3, Sirlin=4)
910 2 Ibarb ! =-1,0,1,2 ( Barbieri???)
911 1 Iftjr ! =0,1 ( FTJR corrections)
912 0 Ifacr ! =0,1,2,3 ( Expansion of delta_r; =0 none; =3 fully, unrecommed.)
913 0 Ifact ! =0,1,2,3,4,5 (Expansion of kappa; =0 none )
914 0 Ihigs ! =0,1 ( Leading Higgs contribution resummation)
915 1 Iafmt ! =0,1 (=0 for old ZF)
916 1 Iewlc ! =0,1 (???)
917 1 Iczak ! =0,1 (Czarnecki/Kuehn corrections)
918 1 Ihig2 ! =0,1 (Two-loop higgs corrections off,on)
919 3 Iale2 ! =1,2,3 (Two-loop constant corrections in delta_alpha)
920 2 Igfer ! =0,1,2 (QED corrections for fermi constant)
921 1 Iddzz ! =0,1 (??? DD-ZZ game, internal flag)
********************************************************************************
***** ****
***** Entries 2000-2999 reserved for Tauola ****
***** ****
********************************************************************************
** Jak=-1 No decay
** Jak=0 Inclusive, 1.e. Jak=1,2,3,4,5,6,7,8...
** Jak=1,2,3 electron,mu,pi decays
** Jak=4,5,6,7 rho,a1,K,K* decays
** Jak=8... see list of branchings below
2001 0e0 Jak1 =xpar(71) First Tau decay mask
2002 0e0 Jak2 =xpar(72) Second Tau decay mask
2003 15e0 idff =xpar(72) PDG ident of the first tau
2004 1e0 itdkRC =xpar(74) QED rad. switch in leptonic decays
2005 0.001e0 xk0dec =xpar(75) IR-cut for QED rad. in leptonic decays
2006 1e0 KeyA1 =xpar(76) Type of a1 current
2007 0.975e0\\\\\\Cosine of Cabibo angle, dont change it\\\\\\\\\\\\\\
2008 1e0 GV in tau decay
2009 -1e0 GA in tau decay
** Coefficients to fix ratio of:
** BRA1 -- A1 3CHARGED/ A1 1CHARGED 2 NEUTRALS MATRIX ELEMENTS (MASLESS LIM.)
** BRKS -- PROBABILITY OF K0 TO BE KS
** BRK0 -- PROBABILITY OF K0B TO BE KS
** BRK0B -- RATIO OF COEFFICIENTS FOR K*--> K0 PI-
** All coefficents should be in the range (0.0,1.0)
** They meaning is probability of the first choice only if one
** neglects mass-phase space effects
2010 0.5e0 BRA1 in 3 pion tau dec. BR of PI+PI-PI- (vs PI-PI0PI0
2011 0.6667e0 BRKS in K* tau dec. BR of BR of K+PI0 (vs PI+K0
2012 0.5e0 BRK0 Probability of K0 to be KS
2013 0.5e0 BRK0B Probability of K0B to be KS
** Tau branching ratios for selection of decay chanel in MC series.
** Data below are from PDG July 1998.
** They do not need to summ up to unity. MC corrects for this.
** !!! WARNING!!! They do not match the model actually used in the present version of Tauola,
** however, for many applications they might be sufficiently good.
** !!! IMPORTANT HINT !!!!
** Entry 2101 set smaller than -1e0 will activate internal defaults of Tauola.
** In such a case all input from 2008-2122 will be IGNORED
2101 17.810e-2 TAU- --> E-
2102 17.370e-2 TAU- --> MU-
2103 11.080e-2 TAU- --> PI-
2104 25.320e-2 TAU- --> PI-, PI0
2105 18.380e-2 TAU- --> A1-(two subch: 2PI-PI+= 9.23%, PI-2PI0=9.15%)
2106 0.710e-2 TAU- --> K-
2107 1.350e-2 TAU- --> K*- (two subch: K-PI0= 0.52%, K0PI- =0.83%)
2108 4.350e-2 TAU- --> 2PI-, PI0, PI+
2109 1.110e-2 TAU- --> 3PI0, PI-
2110 0.011e-2 TAU- --> 2PI-, PI+, 2PI0
2111 0.075e-2 TAU- --> 3PI-, 2PI+,
2112 0.022e-2 TAU- --> 3PI-, 2PI+, PI0
2113 0.029e-2 TAU- --> 2PI-, PI+, 3PI0
2114 0.161e-2 TAU- --> K-, PI-, K+
2115 0.121e-2 TAU- --> K0, PI-, K0B
2116 0.151e-2 TAU- --> K-, K0, PI0
2117 0.080e-2 TAU- --> PI0, PI0, K-
2118 0.180e-2 TAU- --> K-, PI-, PI+
2119 0.390e-2 TAU- --> PI-, K0B, PI0
2120 0.174e-2 TAU- --> ETA, PI-, PI0
2121 0.050e-2 TAU- --> PI-, PI0, GAM ???? from MC
2122 0.159e-2 TAU- --> K-, K0
** !!! Tau branching ratios all equal!!! for starting the true work on br. ratios
*2101 1.0000e0 TAU- --> E-
*2102 1.0000e0 TAU- --> MU-
*2103 1.0000e0 TAU- --> PI-
*2104 1.0000e0 TAU- --> PI-, PI0
*2105 1.0000e0 TAU- --> A1- (two subch)
*2106 1.0000e0 TAU- --> K-
*2107 1.0000e0 TAU- --> K*- (two subch)
*2108 1.0000e0 TAU- --> 2PI-, PI0, PI+
*2109 1.0000e0 TAU- --> 3PI0, PI-
*2110 1.0000e0 TAU- --> 2PI-, PI+, 2PI0
*2111 1.0000e0 TAU- --> 3PI-, 2PI+,
*2112 1.0000e0 TAU- --> 3PI-, 2PI+, PI0
*2113 1.0000e0 TAU- --> 2PI-, PI+, 3PI0
*2114 1.0000e0 TAU- --> K-, PI-, K+
*2115 1.0000e0 TAU- --> K0, PI-, K0B
*2116 1.0000e0 TAU- --> K-, K0, PI0
*2117 1.0000e0 TAU- --> PI0, PI0, K-
*2118 1.0000e0 TAU- --> K-, PI-, PI+
*2119 1.0000e0 TAU- --> PI-, K0B, PI0
*2120 1.0000e0 TAU- --> ETA, PI-, PI0
*2121 1.0000e0 TAU- --> PI-, PI0, GAM
*2122 1.0000e0 TAU- --> K-, K0
********************************************************************************
***** End of data for Tauola ****
********************************************************************************
EndX