Welcome to Sherpa, Daniel Reichelt on ip3-cpu5.phyip3.dur.ac.uk. Initialization of framework underway.
The local time is Mon Dec 4 12:40:07 2023.
Run_Parameter::Init(): Setting memory limit to 503.276 GB.
Random::SetSeed(): Seed set to 1015
Initialization_Handler::LoadLibraries(): Library libSherpaPythia.so loaded.
-----------------------------------------------------------------------------
----------- Event generation run with SHERPA started ....... -----------
-----------------------------------------------------------------------------
................................................ | +
................................................ || | + +
................................... .... | | / +
................. ................ _,_ | .... || +| + +
............................... __.' ,\| ... || / +| +
.............................. ( \ \ ... | | | + + \ +
............................. ( \ -/ .... || + | +
........ ................... <S /()))))~~~~~~~~## + /\ +
............................ (!H (~~)))))~~~~~~#/ + + | +
................ ........... (!E (~~~))))) /|/ + +
............................ (!R (~~~))))) ||| + + +
..... ...................... (!P (~~~~))) /| + + +
............................ (!A> (~~~~~~~~~## + + +
............................. ~~(! '~~~~~~~ \ + + + +
............................... `~~~QQQQQDb // | + + + +
........................ .......... IDDDDP|| \ + + + + + +
.................................... IDDDI|| \ +
.................................... IHD HD|| \ + + + + + + + +
................................... IHD ##| :-) + +\ +
......... ............... ......... IHI ## / / + + + + +\ +
................................... IHI/ / / + + + + +
................................... ## | | / / + + + + / +
....................... /TT\ ..... ##/ /// / + + + + + + +/ +
......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ +
....................../TTT/TTTT\...|TT/T\\\/ + ++ + /
-----------------------------------------------------------------------------
SHERPA version 3.0.0beta1 (Dhaulagiri)
Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss,
Silvan Kuttimalai, Marek Schoenherr, Holger Schulz,
Steffen Schumann, Frank Siegert, Korinna Zapp
Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth,
Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke,
Jan Winter
This program uses a lot of genuine and original research work
by other people. Users are encouraged to refer to
the various original publications.
Users are kindly asked to refer to the documentation
published under JHEP 02(2009)007
Please visit also our homepage
http://sherpa.hepforge.org
for news, bugreports, updates and new releases.
-----------------------------------------------------------------------------
WARNING: You are using an unsupported development branch.
Git branch unknownurl, revision unknownrevision.
Hadron_Init::Init(): Initializing kf table for hadrons.
Beam_Spectra_Handler: type = Collider Setup
for P+ (on = 0, p = (4000,0,0,4000))
and P+ (on = 0, p = (4000,0,0,-4000)).
ISR handling:
PDFs for hard scattering: CT14nnlo + CT14nnlo
PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas
Remnant_Handlers:
hard process: P+: Hadron + P+: Hadron
Standard_Model::FixEWParameters() {
Input scheme: Gmu
Gmu scheme, input: GF, m_W, m_Z, m_h, widths
Ren. scheme: Gmu
Parameters: sin^2(\theta_W) = 0.223043 - 0.00110541 i
vev = 246.218
}
Running_AlphaQED::PrintSummary() {
Setting \alpha according to EW scheme
1/\alpha(0) = 137.036
1/\alpha(def) = 132.119
}
One_Running_AlphaS::PrintSummary() {
Setting \alpha_s according to PDF
perturbative order 2
\alpha_s(M_Z) = 0.118
}
One_Running_AlphaS::PrintSummary() {
Setting \alpha_s according to PDF
perturbative order 2
\alpha_s(M_Z) = 0.118
}
List of Particle Data
IDName kfc Mass Width Stable Massive Active Yukawa
d 1 0.01 0 1 0 1 0
u 2 0.005 0 1 0 1 0
s 3 0.2 0 1 0 1 0
c 4 1.42 0 1 0 1 0
b 5 4.92 0 1 0 1 0
t 6 172.5 1.32 0 1 1 172.5
e- 11 0.000511 0 1 0 1 0
ve 12 0 0 1 0 1 0
mu- 13 0.105 0 1 0 1 0
vmu 14 0 0 1 0 1 0
tau- 15 1.777 2.26735e-12 0 0 1 0
vtau 16 0 0 1 0 1 0
G 21 0 0 1 0 1 0
P 22 0 0 1 0 1 0
Z 23 91.1876 2.4952 0 1 1 91.1876
W+ 24 80.379 2.085 0 1 1 80.379
h0 25 125.09 0.0041 0 1 1 125.09
string 95 0 0 1 0 1 0
cluster 96 0 0 1 0 1 0
Instanton 999 0 0 0 0 1 0
List of Particle Containers
IDName kfc Constituents
l 90 {e-,e+,mu-,mu+,tau-,tau+}
v 91 {ve,veb,vmu,vmub,vtau,vtaub}
f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,tau-,tau+,ve,veb,vmu,vmub,vtau,vtaub}
j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G}
Q 94 {d,db,u,ub,s,sb,c,cb,b,bb}
ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P}
Alaric_KFrame_TdefII
Alaric_KFrame_TdefII
Alaric_KFrame_TdefII
Alaric_KFrame_TdefII
Alaric_KFrame_TdefFF
Alaric_KFrame_TdefFF
Alaric_KFrame_TdefFF
Alaric_KFrame_TdefFF
####### Permutations for 2 partons ##############
found 2 entries:
1th permutation = { 0 1 }
2th permutation = { 1 0 }
FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
IF: Soft, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
II: Soft, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
Alaric_KFrame_TdefII
Alaric_KFrame_TdefII
Alaric_KFrame_TdefII
Alaric_KFrame_TdefII
Alaric_KFrame_TdefFF
Alaric_KFrame_TdefFF
Alaric_KFrame_TdefFF
Alaric_KFrame_TdefFF
####### Permutations for 2 partons ##############
found 2 entries:
1th permutation = { 0 1 }
2th permutation = { 1 0 }
FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2.
FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2.
IF: Soft, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->FV, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->FF, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
IF: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
IF: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
II: Soft, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, d -> (d,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, db -> (db,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, u -> (u,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, ub -> (ub,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, s -> (s,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, sb -> (sb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, c -> (c,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, cb -> (cb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, b -> (b,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, bb -> (bb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, t -> (t,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->FV, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->FF, tb -> (tb,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: Soft, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear V->VV, G -> (G,G): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (db,d): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (ub,u): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (sb,s): increase cutoff to 0.5, now t0 = 0.5^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
II: collinear F->VF, G -> (cb,c): increase cutoff to 0.5, now t0 = 2.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
II: collinear F->VF, G -> (bb,b): increase cutoff to 0.5, now t0 = 9.84^2.
Shower_Handler initialised.
+-----------------------------------------+
| X X X XXXX XXX XXX XXX |
| X X XX XX X X X X X X |
| X X X X X XXX X XXX X X XXX XXX |
| XXXXX X X X X X X X X X |
| X X X X XXXX XXX XXX XXX |
+-----------------------------------------+
| please cite: JHEP 0202:044,2002 |
+-----------------------------------------+
Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 0.
ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none)
+----------------------------------+
| |
| �[31mCCC�[0m �[32mOOO�[0m �[34mM�[0m �[34mM�[0m I �[33mX�[0m �[33mX�[0m |
| �[31mC�[0m �[32mO�[0m �[32mO�[0m �[34mMM�[0m �[34mMM�[0m I �[33mX�[0m �[33mX�[0m |
| �[31mC�[0m �[32mO�[0m �[32mO�[0m �[34mM�[0m �[34mM�[0m �[34mM�[0m I �[33mX�[0m |
| �[31mC�[0m �[32mO�[0m �[32mO�[0m �[34mM�[0m �[34mM�[0m I �[33mX�[0m �[33mX�[0m |
| �[31mCCC�[0m �[32mOOO�[0m �[34mM�[0m �[34mM�[0m I �[33mX�[0m �[33mX�[0m |
| |
+==================================+
| Color dressed Matrix Elements |
| http://comix.freacafe.de |
| please cite JHEP12(2008)039 |
+----------------------------------+
ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none)
ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none)
Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks.
Matrix_Element_Handler::BuildProcesses(): Setting up processes ............ done ( 55 MB, 0s / 0s ).
Matrix_Element_Handler::InitializeProcesses(): Performing tests ............ done ( 55 MB, 0s / 0s ).
Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 55 MB, 0s / 0s ).
Initialized the Matrix_Element_Handler for the hard processes.
Initialized the Beam_Remnant_Handler.
ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amisic::Processes: (none)
MI_Handler::MI_Handler(id = 2, name = Amisic, type = 1)
Underlying event/multiple interactions handler:
MI[2]: on = 1 (type = 1, Amisic)
Soft-collision handlers:
Type[2]: None
Hadron_Init::Init(): Initializing kf table for hadrons.
�[34mPythia8_Hadronisation::Pythia8_Hadronisation�[0m:(�[32m"Initialising Pythia8 hadronisation interface"�[0m)
�[34mPythia8_Hadronisation::ApplyPythiaSettings�[0m:(�[32m"Applying Pythia8 settings"�[0m)
�[34mPythia8_Hadronisation::HarmonizeMasses�[0m:(�[32m"Harmonizing particle masses and widths!"�[0m)
�[34mPythia8_Hadronisation::ModifyPythiaValues�[0m:(�[32m"Changing Pythia Values"�[0m)
Initialized the Fragmentation_Handler.
Initialized the Hadron_Decay_Handler, Decay model = HADRONS++
Initialized the Soft_Photon_Handler.
Initialized the Reweighting.
ISR_Channels::CheckForStructuresFromME for 0: (none)
Read in channels from directory: Results/Comix/MC_2_2__j__j__j__j
Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__j__j' (Comix)
�[1m2_2__j__j__j__j�[0m : �[34m�[1m5.81404e+09 pb�[0m +- ( �[31m7.55324e+07 pb = 1.29914 %�[0m ) �[1m exp. eff: �[31m2.39841e-05 %�[0m
reduce max for 2_2__j__j__j__j to 1 ( eps = 0.001 -> exp. eff 2.39841e-07 )
----------------------------------------------------------
-- SHERPA generates events with the following structure --
----------------------------------------------------------
Event generation : Weighted
Perturbative : Signal_Processes
Perturbative : Minimum_Bias: None
Perturbative : Hard_Decays
Perturbative : Jet_Evolution:CFP
Perturbative : Lepton_FS_QED_Corrections:None
Perturbative : Multiple_Interactions: Amisic
Hadronization : Beam_Remnants:Parametrised
Hadronization : Hadronization:Pythia8
Hadronization : Hadron_Decays
Userhook :
Analysis : Rivet
---------------------------------------------------------
#--------------------------------------------------------------------------
# FastJet release 3.3.2 [fjcore]
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the terms of the GNU GPLv2.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
Event 1 ( 5s elapsed / 5d 19h 43m 14s left ) -> ETA: Sun Dec 10 08:23 XS = 26876.9 pb +- ( 26876.9 pb = 100 % )
Event 2 ( 5s elapsed / 2d 22h 33m 14s left ) -> ETA: Thu Dec 07 11:13 XS = 119019 pb +- ( 92142.2 pb = 77 % )
Event 3 ( 5s elapsed / 1d 23h 13m 14s left ) -> ETA: Wed Dec 06 11:53 XS = 2.77639e+09 pb +- ( 2.77627e+09 pb = 99 % )
Event 4 ( 5s elapsed / 1d 11h 41m 34s left ) -> ETA: Wed Dec 06 00:21 XS = 2.08257e+09 pb +- ( 2.08212e+09 pb = 99 % )
Event 5 ( 5s elapsed / 1d 4h 36m 34s left ) -> ETA: Tue Dec 05 17:16 XS = 1.66711e+09 pb +- ( 1.66546e+09 pb = 99 % )
Event 6 ( 5s elapsed / 23h 56m 1s left ) -> ETA: Tue Dec 05 12:36 XS = 1.1908e+09 pb +- ( 1.18969e+09 pb = 99 % )
Event 7 ( 5s elapsed / 20h 42m 46s left ) -> ETA: Tue Dec 05 09:23 XS = 8.33594e+08 pb +- ( 8.32816e+08 pb = 99 % )
Event 8 ( 5s elapsed / 18h 13m 39s left ) -> ETA: Tue Dec 05 06:53 XS = 6.98255e+08 pb +- ( 6.93707e+08 pb = 99 % )
Event 9 ( 5s elapsed / 16h 45m 27s left ) -> ETA: Tue Dec 05 05:25 XS = 6.44544e+08 pb +- ( 6.40374e+08 pb = 99 % )
Event 10 ( 5s elapsed / 15h 11m 34s left ) -> ETA: Tue Dec 05 03:51 XS = 5.98506e+08 pb +- ( 5.94656e+08 pb = 99 % )
Event 20 ( 5s elapsed / 8h 11m 34s left ) -> ETA: Mon Dec 04 20:51 XS = 1.00691e+09 pb +- ( 4.64798e+08 pb = 46 % )
Event 30 ( 6s elapsed / 5h 45m 27s left ) -> ETA: Mon Dec 04 18:25 XS = 6.59284e+08 pb +- ( 3.09639e+08 pb = 46 % )
Event 40 ( 6s elapsed / 4h 33m 38s left ) -> ETA: Mon Dec 04 17:13 XS = 1.00527e+09 pb +- ( 5.64411e+08 pb = 56 % )
Event 50 ( 6s elapsed / 3h 51m 53s left ) -> ETA: Mon Dec 04 16:32 XS = 3.71782e+09 pb +- ( 2.34618e+09 pb = 63 % )
Event 60 ( 7s elapsed / 3h 24m 19s left ) -> ETA: Mon Dec 04 16:04 XS = 3.09912e+09 pb +- ( 1.92599e+09 pb = 62 % )
Warning: Kinematics_Generator::TransverseKinematicsHH: Not able to create the breakup kinematics for Particle List with 4 elements
[I] 1 G 5 ( -> 2) [( 1.2547e+03,-0.0000e+00,-0.0000e+00, 1.2547e+03), p^2= 0.0000e+00, m= 0.0000e+00] (627,607) 0
[I] 1 d 77 ( -> 4) [( 1.2912e+03,-0.0000e+00,-0.0000e+00, 1.2912e+03), p^2= 0.0000e+00, m= 3.0000e-01] (607, 0) 0
[I] 1 G 99 ( -> 6) [( 1.9031e+02,-0.0000e+00,-0.0000e+00, 1.9031e+02), p^2= 0.0000e+00, m= 0.0000e+00] (689,627) 0
[I] 1 u 118 ( -> 8) [( 4.5265e+02,-0.0000e+00,-0.0000e+00, 4.5265e+02), p^2= 0.0000e+00, m= 3.0000e-01] (701, 0) 0
and Particle List with 4 elements
[I] 1 G 6 ( -> 2) [( 3.8548e+03,-0.0000e+00,-0.0000e+00,-3.8548e+03), p^2= 0.0000e+00, m= 0.0000e+00] (604,602) 1
[I] 1 s 78 ( -> 4) [( 1.0741e+02,-0.0000e+00,-0.0000e+00,-1.0741e+02), p^2= 0.0000e+00, m= 4.0000e-01] (671, 0) 1
[I] 1 G 100 ( -> 6) [( 3.5760e+01,-0.0000e+00,-0.0000e+00,-3.5760e+01), p^2= 0.0000e+00, m= 0.0000e+00] (691,671) 1
[I] 1 d 119 ( -> 8) [( 3.5052e-01,-0.0000e+00,-0.0000e+00,-3.5052e-01), p^2= 0.0000e+00, m= 3.0000e-01] (602, 0) 1
and the corresponding remnants are Particle List with 2 elements
[B] 1 uu_1 126 ( -> ) [( 6.4169e+02, 0.0000e+00, 0.0000e+00, 6.4169e+02), p^2= 1.1173e-01, m= 7.7133e-01] ( 0,701) 0
[B] 1 ub 123 ( -> ) [( 1.6946e+02, 0.0000e+00, 0.0000e+00, 1.6946e+02), p^2= 7.7912e-03, m= 0.0000e+00] ( 0,689) 0
and Particle List with 2 elements
[B] 1 uu_1 127 ( -> ) [( 0.0000e+00, 0.0000e+00, 0.0000e+00,-0.0000e+00), p^2= 0.0000e+00, m= 7.7133e-01] ( 0,691) 1
[B] 1 sb 94 ( -> ) [( 1.6654e+00, 0.0000e+00, 0.0000e+00,-1.6653e+00), p^2= 3.6652e-04, m= 0.0000e+00] ( 0,604) 1
Event 70 ( 7s elapsed / 3h 7m 57s left ) -> ETA: Mon Dec 04 15:48 XS = 2.73169e+09 pb +- ( 1.68473e+09 pb = 61 % )
Event 80 ( 8s elapsed / 2h 51m 44s left ) -> ETA: Mon Dec 04 15:32 XS = 3.19678e+09 pb +- ( 1.67173e+09 pb = 52 % )
Event 90 ( 8s elapsed / 2h 40m 24s left ) -> ETA: Mon Dec 04 15:20 XS = 3.04497e+09 pb +- ( 1.54227e+09 pb = 50 % )
Event 100 ( 8s elapsed / 2h 28m 21s left ) -> ETA: Mon Dec 04 15:08 XS = 3.33514e+09 pb +- ( 1.43725e+09 pb = 43 % )
Event 200 ( 12s elapsed / 1h 42m 47s left ) -> ETA: Mon Dec 04 14:23 XS = 4.1241e+09 pb +- ( 1.14337e+09 pb = 27 % )
Event 300 ( 16s elapsed / 1h 32m 56s left ) -> ETA: Mon Dec 04 14:13 XS = 4.37294e+09 pb +- ( 9.72939e+08 pb = 22 % )
Event 400 ( 20s elapsed / 1h 25m 36s left ) -> ETA: Mon Dec 04 14:06 XS = 3.84261e+09 pb +- ( 7.72261e+08 pb = 20 % )
Event 500 ( 23s elapsed / 1h 18m 12s left ) -> ETA: Mon Dec 04 13:58 XS = 3.51983e+09 pb +- ( 6.24263e+08 pb = 17 % )
Event 600 ( 27s elapsed / 1h 15m 9s left ) -> ETA: Mon Dec 04 13:55 XS = 4.16336e+09 pb +- ( 6.76241e+08 pb = 16 % )
Event 700 ( 30s elapsed / 1h 12m 35s left ) -> ETA: Mon Dec 04 13:53 XS = 4.28927e+09 pb +- ( 7.24608e+08 pb = 16 % )
Event 800 ( 34s elapsed / 1h 10m 19s left ) -> ETA: Mon Dec 04 13:51 XS = 4.60338e+09 pb +- ( 6.95823e+08 pb = 15 % )
Event 900 ( 37s elapsed / 1h 8m 53s left ) -> ETA: Mon Dec 04 13:49 XS = 4.57397e+09 pb +- ( 6.47405e+08 pb = 14 % )
Event 1000 ( 41s elapsed / 1h 8m 20s left ) -> ETA: Mon Dec 04 13:49 XS = 4.5275e+09 pb +- ( 6.41933e+08 pb = 14 % )
Warning: Kinematics_Generator::TransverseKinematicsHH: Not able to create the breakup kinematics for Particle List with 2 elements
[I] 1 u 6 ( -> 2) [( 3.9977e+03,-0.0000e+00,-0.0000e+00, 3.9977e+03), p^2= 0.0000e+00, m= 3.0000e-01] (606, 0) 0
[I] 1 ub 52 ( -> 4) [( 1.2407e+00,-0.0000e+00,-0.0000e+00, 1.2407e+00), p^2= 0.0000e+00, m= 3.0000e-01] ( 0,606) 0
and Particle List with 2 elements
[I] 1 u 5 ( -> 2) [( 1.3732e+03,-0.0000e+00,-0.0000e+00,-1.3732e+03), p^2= 0.0000e+00, m= 3.0000e-01] (641, 0) 1
[I] 1 G 53 ( -> 4) [( 1.2094e+02,-0.0000e+00,-0.0000e+00,-1.2094e+02), p^2= 0.0000e+00, m= 0.0000e+00] (606,641) 1
and the corresponding remnants are Particle List with 2 elements
[B] 1 ud_0 63 ( -> ) [( 0.0000e+00, 0.0000e+00, 0.0000e+00, 0.0000e+00), p^2= 0.0000e+00, m= 5.7933e-01] ( 0,664) 0
[B] 1 u 60 ( -> ) [( 1.0755e+00, 0.0000e+00, 0.0000e+00, 1.0754e+00), p^2= 2.3669e-04, m= 0.0000e+00] (664, 0) 0
and Particle List with 1 elements
[B] 1 ud_0 64 ( -> ) [( 2.5059e+03, 0.0000e+00, 0.0000e+00,-2.5059e+03), p^2= 5.5151e-01, m= 5.7933e-01] ( 0,606) 1
Warning: Kinematics_Generator::TransverseKinematicsHH: Not able to create the breakup kinematics for Particle List with 8 elements
[I] 1 G 6 ( -> 2) [( 7.9323e+02,-0.0000e+00,-0.0000e+00, 7.9323e+02), p^2= 0.0000e+00, m= 0.0000e+00] (640,642) 0
[I] 1 G 46 ( -> 4) [( 1.9995e+02,-0.0000e+00,-0.0000e+00, 1.9995e+02), p^2= 0.0000e+00, m= 0.0000e+00] (642,655) 0
[I] 1 u 63 ( -> 6) [( 7.4449e+02,-0.0000e+00,-0.0000e+00, 7.4449e+02), p^2= 0.0000e+00, m= 3.0000e-01] (655, 0) 0
[I] 1 G 87 ( -> 8) [( 5.5412e+01,-0.0000e+00,-0.0000e+00, 5.5412e+01), p^2= 0.0000e+00, m= 0.0000e+00] (690,640) 0
[I] 1 u 103 ( -> 10) [( 2.2419e+01,-0.0000e+00,-0.0000e+00, 2.2419e+01), p^2= 0.0000e+00, m= 3.0000e-01] (692, 0) 0
[I] 1 G 115 ( -> 12) [( 2.3166e+01,-0.0000e+00,-0.0000e+00, 2.3166e+01), p^2= 0.0000e+00, m= 0.0000e+00] (705,692) 0
[I] 1 G 130 ( -> 14) [( 5.0416e+02,-0.0000e+00,-0.0000e+00, 5.0416e+02), p^2= 0.0000e+00, m= 0.0000e+00] (715,705) 0
[I] 1 u 145 ( -> 16) [( 7.5670e+02,-0.0000e+00,-0.0000e+00, 7.5670e+02), p^2= 0.0000e+00, m= 3.0000e-01] (721, 0) 0
and Particle List with 8 elements
[I] 1 G 5 ( -> 2) [( 1.6282e+03,-0.0000e+00,-0.0000e+00,-1.6282e+03), p^2= 0.0000e+00, m= 0.0000e+00] (609,611) 1
[I] 1 G 47 ( -> 4) [( 3.2021e+02,-0.0000e+00,-0.0000e+00,-3.2021e+02), p^2= 0.0000e+00, m= 0.0000e+00] (611,656) 1
[I] 1 G 64 ( -> 6) [( 1.7251e+03,-0.0000e+00,-0.0000e+00,-1.7251e+03), p^2= 0.0000e+00, m= 0.0000e+00] (656,669) 1
[I] 1 sb 88 ( -> 8) [( 1.7755e+02,-0.0000e+00,-0.0000e+00,-1.7755e+02), p^2= 0.0000e+00, m= 4.0000e-01] ( 0,681) 1
[I] 1 G 104 ( -> 10) [( 1.9112e+01,-0.0000e+00,-0.0000e+00,-1.9112e+01), p^2= 0.0000e+00, m= 0.0000e+00] (693,609) 1
[I] 1 d 116 ( -> 12) [( 1.8063e+01,-0.0000e+00,-0.0000e+00,-1.8063e+01), p^2= 0.0000e+00, m= 3.0000e-01] (681, 0) 1
[I] 1 G 131 ( -> 14) [( 1.0936e+02,-0.0000e+00,-0.0000e+00,-1.0936e+02), p^2= 0.0000e+00, m= 0.0000e+00] (709,693) 1
[I] 1 s 146 ( -> 16) [( 5.3053e-01,-0.0000e+00,-0.0000e+00,-5.3053e-01), p^2= 0.0000e+00, m= 4.0000e-01] (723, 0) 1
and the corresponding remnants are Particle List with 3 elements
[B] 1 ud_0 157 ( -> ) [( 7.2627e+02, 0.0000e+00, 0.0000e+00, 7.2627e+02), p^2= 1.2892e-01, m= 5.7933e-01] ( 0,721) 0
[B] 1 ub 153 ( -> ) [( 3.0841e-01, 0.0000e+00, 0.0000e+00, 3.0841e-01), p^2= 2.3248e-08, m= 0.0000e+00] ( 0,715) 0
[B] 1 ub 110 ( -> ) [( 1.7389e+02, 0.0000e+00, 0.0000e+00, 1.7389e+02), p^2= 7.3909e-03, m= 0.0000e+00] ( 0,690) 0
and Particle List with 3 elements
[B] 1 uu_1 158 ( -> ) [( 0.0000e+00, 0.0000e+00, 0.0000e+00,-0.0000e+00), p^2= 0.0000e+00, m= 7.7133e-01] ( 0,723) 1
[B] 1 sb 154 ( -> ) [( 5.1133e-01, 0.0000e+00, 0.0000e+00,-5.1130e-01), p^2= 3.0207e-05, m= 0.0000e+00] ( 0,709) 1
[B] 1 s 98 ( -> ) [( 1.3936e+00, 0.0000e+00, 0.0000e+00,-1.3935e+00), p^2= 2.2438e-04, m= 0.0000e+00] (669, 0) 1
Warning: Kinematics_Generator::TransverseKinematicsHH: Not able to create the breakup kinematics for Particle List with 4 elements
[I] 1 G 5 ( -> 2) [( 3.9748e+03,-0.0000e+00,-0.0000e+00, 3.9748e+03), p^2= 0.0000e+00, m= 0.0000e+00] (603,602) 0
[I] 1 sb 63 ( -> 4) [( 4.2372e-01, 0.0000e+00, 0.0000e+00, 4.2372e-01), p^2= 0.0000e+00, m= 4.0000e-01] ( 0,656) 0
[I] 1 ub 72 ( -> 6) [( 2.9757e+00,-0.0000e+00,-0.0000e+00, 2.9757e+00), p^2= 0.0000e+00, m= 3.0000e-01] ( 0,666) 0
[I] 1 G 86 ( -> 8) [( 1.9815e+01,-0.0000e+00,-0.0000e+00, 1.9815e+01), p^2= 0.0000e+00, m= 0.0000e+00] (677,603) 0
and Particle List with 4 elements
[I] 1 db 6 ( -> 2) [( 2.1893e+03,-0.0000e+00,-0.0000e+00,-2.1893e+03), p^2= 0.0000e+00, m= 3.0000e-01] ( 0,601) 1
[I] 1 G 64 ( -> 4) [( 1.8003e+02, 0.0000e+00, 0.0000e+00,-1.8003e+02), p^2= 0.0000e+00, m= 0.0000e+00] (601,657) 1
[I] 1 u 73 ( -> 6) [( 8.2204e+02,-0.0000e+00,-0.0000e+00,-8.2204e+02), p^2= 0.0000e+00, m= 3.0000e-01] (657, 0) 1
[I] 1 G 87 ( -> 8) [( 3.6987e+02,-0.0000e+00,-0.0000e+00,-3.6987e+02), p^2= 0.0000e+00, m= 0.0000e+00] (674,649) 1
and the corresponding remnants are Particle List with 4 elements
[B] 1 ud_0 101 ( -> ) [( 0.0000e+00, 0.0000e+00, 0.0000e+00, 0.0000e+00), p^2= 0.0000e+00, m= 5.7933e-01] ( 0,677) 0
[B] 1 u 81 ( -> ) [( 3.5007e-01, 0.0000e+00, 0.0000e+00, 3.5005e-01), p^2= 1.3649e-05, m= 0.0000e+00] (656, 0) 0
[B] 1 s 67 ( -> ) [( 1.1425e+00, 0.0000e+00, 0.0000e+00, 1.1425e+00), p^2= 1.4538e-04, m= 0.0000e+00] (602, 0) 0
[B] 1 u 100 ( -> ) [( 4.8351e-01, 0.0000e+00, 0.0000e+00, 4.8348e-01), p^2= 2.6036e-05, m= 0.0000e+00] (666, 0) 0
and Particle List with 2 elements
[B] 1 ud_0 102 ( -> ) [( 2.6647e+02, 0.0000e+00, 0.0000e+00,-2.6647e+02), p^2= 3.5616e-02, m= 5.7933e-01] ( 0,674) 1
[B] 1 d 58 ( -> ) [( 1.7231e+02, 0.0000e+00, 0.0000e+00,-1.7231e+02), p^2= 1.4893e-02, m= 0.0000e+00] (649, 0) 1
Warning: Kinematics_Generator::TransverseKinematicsHH: Not able to create the breakup kinematics for Particle List with 4 elements
[I] 1 d 6 ( -> 2) [( 1.1386e+02,-0.0000e+00,-0.0000e+00, 1.1386e+02), p^2= 0.0000e+00, m= 3.0000e-01] (608, 0) 0
[I] 1 sb 36 ( -> 4) [( 2.3981e+01,-0.0000e+00,-0.0000e+00, 2.3981e+01), p^2= 0.0000e+00, m= 4.0000e-01] ( 0,608) 0
[I] 1 G 49 ( -> 6) [( 1.9775e+03,-0.0000e+00,-0.0000e+00, 1.9775e+03), p^2= 0.0000e+00, m= 0.0000e+00] (625,645) 0
[I] 1 d 64 ( -> 8) [( 1.5744e+03,-0.0000e+00,-0.0000e+00, 1.5744e+03), p^2= 0.0000e+00, m= 3.0000e-01] (645, 0) 0
and Particle List with 4 elements
[I] 1 G 5 ( -> 2) [( 3.9645e+03,-0.0000e+00,-0.0000e+00,-3.9645e+03), p^2= 0.0000e+00, m= 0.0000e+00] (602,603) 1
[I] 1 G 37 ( -> 4) [( 1.5660e+01,-0.0000e+00,-0.0000e+00,-1.5660e+01), p^2= 0.0000e+00, m= 0.0000e+00] (603,628) 1
[I] 1 G 50 ( -> 6) [( 1.8136e+01,-0.0000e+00,-0.0000e+00,-1.8136e+01), p^2= 0.0000e+00, m= 0.0000e+00] (628,638) 1
[I] 1 ub 65 ( -> 8) [( 5.1066e-01,-0.0000e+00,-0.0000e+00,-5.1066e-01), p^2= 0.0000e+00, m= 3.0000e-01] ( 0,602) 1
and the corresponding remnants are Particle List with 3 elements
[B] 1 uu_1 77 ( -> ) [( 2.9277e+02, 0.0000e+00, 0.0000e+00, 2.9277e+02), p^2= 6.0797e-02, m= 7.7133e-01] ( 0,632) 0
[B] 1 s 44 ( -> ) [( 1.7788e+00, 0.0000e+00, 0.0000e+00, 1.7788e+00), p^2= 2.2444e-06, m= 0.0000e+00] (632, 0) 0
[B] 1 db 31 ( -> ) [( 1.5743e+01, 0.0000e+00, 0.0000e+00, 1.5743e+01), p^2= 1.7578e-04, m= 0.0000e+00] ( 0,625) 0
and Particle List with 3 elements
[B] 1 uu_1 79 ( -> ) [( 0.0000e+00, 0.0000e+00, 0.0000e+00,-0.0000e+00), p^2= 0.0000e+00, m= 7.7133e-01] ( 0,662) 1
[B] 1 u 74 ( -> ) [( 3.2446e-01, 0.0000e+00, 0.0000e+00,-3.2443e-01), p^2= 1.9917e-05, m= 0.0000e+00] (662, 0) 1
[B] 1 d 78 ( -> ) [( 8.3879e-01, 0.0000e+00, 0.0000e+00,-8.3871e-01), p^2= 1.3311e-04, m= 0.0000e+00] (638, 0) 1
Event 2000 ( 1m 19s elapsed / 1h 4m 47s left ) -> ETA: Mon Dec 04 13:46 XS = 5.27868e+09 pb +- ( 5.81912e+08 pb = 11 % )
Event 3000 ( 1m 57s elapsed / 1h 3m 18s left ) -> ETA: Mon Dec 04 13:45 XS = 5.81639e+09 pb +- ( 5.30285e+08 pb = 9 % )
Warning: Kinematics_Generator::TransverseKinematicsHH reduced overall prescale for kt to scale = 0.1
Event 4000 ( 2m 34s elapsed / 1h 1m 45s left ) -> ETA: Mon Dec 04 13:44 XS = 5.68711e+09 pb +- ( 4.82913e+08 pb = 8 % )
Event 5000 ( 3m 15s elapsed / 1h 1m 52s left ) -> ETA: Mon Dec 04 13:45 XS = 5.70274e+09 pb +- ( 4.34925e+08 pb = 7 % )
Event 6000 ( 3m 54s elapsed / 1h 1m 7s left ) -> ETA: Mon Dec 04 13:45 XS = 5.87861e+09 pb +- ( 4.26526e+08 pb = 7 % )
Event 7000 ( 4m 31s elapsed / 1h 4s left ) -> ETA: Mon Dec 04 13:44 XS = 5.96957e+09 pb +- ( 4.23784e+08 pb = 7 % )
Pythia8 hadronisation failed.
Event 8000 ( 5m 9s elapsed / 59m 24s left ) -> ETA: Mon Dec 04 13:44 XS = 5.93034e+09 pb +- ( 3.84811e+08 pb = 6 % )
Event 9000 ( 5m 48s elapsed / 58m 39s left ) -> ETA: Mon Dec 04 13:44 XS = 5.87602e+09 pb +- ( 3.57912e+08 pb = 6 % )
Warning: Kinematics_Generator::TransverseKinematicsHH reduced overall prescale for kt to scale = 0.1
Warning: Kinematics_Generator::TransverseKinematicsHH reduced overall prescale for kt to scale = 0.1
Warning: Kinematics_Generator::TransverseKinematicsHH reduced overall prescale for kt to scale = 0.1
Warning: Kinematics_Generator::TransverseKinematicsHH reduced overall prescale for kt to scale = 0.1
Event 10000 ( 6m 25s elapsed / 57m 48s left ) -> ETA: Mon Dec 04 13:44 XS = 6.03204e+09 pb +- ( 3.56761e+08 pb = 5 % )
Event 20000 ( 12m 50s elapsed / 51m 22s left ) -> ETA: Mon Dec 04 13:44 XS = 6.01294e+09 pb +- ( 2.773e+08 pb = 4 % )
Event 30000 ( 19m 15s elapsed / 44m 56s left ) -> ETA: Mon Dec 04 13:44 XS = 5.87063e+09 pb +- ( 2.16771e+08 pb = 3 % )
Pythia8 hadronisation failed.
Pythia8 hadronisation failed.
Event 40000 ( 25m 42s elapsed / 38m 33s left ) -> ETA: Mon Dec 04 13:44 XS = 5.79038e+09 pb +- ( 1.80242e+08 pb = 3 % )
Pythia8 hadronisation failed.
Event 50000 ( 32m 18s elapsed / 32m 18s left ) -> ETA: Mon Dec 04 13:44 XS = 5.80485e+09 pb +- ( 1.60585e+08 pb = 2 % )
Pythia8 hadronisation failed.
Pythia8 hadronisation failed.
Event 60000 ( 38m 48s elapsed / 25m 52s left ) -> ETA: Mon Dec 04 13:44 XS = 5.66027e+09 pb +- ( 1.42111e+08 pb = 2 % )
Pythia8 hadronisation failed.
Event 70000 ( 45m 20s elapsed / 19m 26s left ) -> ETA: Mon Dec 04 13:44 XS = 5.63348e+09 pb +- ( 1.30181e+08 pb = 2 % )
Pythia8 hadronisation failed.
Pythia8 hadronisation failed.
Event 80000 ( 51m 49s elapsed / 12m 57s left ) -> ETA: Mon Dec 04 13:44 XS = 5.56505e+09 pb +- ( 1.19774e+08 pb = 2 % )
Pythia8 hadronisation failed.
Event 90000 ( 58m 26s elapsed / 6m 29s left ) -> ETA: Mon Dec 04 13:45 XS = 5.51828e+09 pb +- ( 1.12132e+08 pb = 2 % )
Pythia8 hadronisation failed.
Event 100000 ( 3869 s total ) = 2.23297e+06 evts/day
In Event_Handler::Finish : Summarizing the run may take some time.
�[31mRivet_Interface::Finish(�[32mAnalysis_Alaric/1015�[31m)�[0m�[31m{�[0m
�[31m}�[0m
--------------------------------------------------------------------------
Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr
--------------------------------------------------------------------------
�[1mNominal �[0m�[34m�[1m 5.49937e+09�[0m�[33m 0 %�[31m 1.08282e+08 1.96 %�[0m
--------------------------------------------------------------------------
Return_Value::PrintStatistics(): Statistics {
Generated events: 100000
Errors {
From "Hadronization:Pythia8": 11 (100011) -> 0 %
}
New events {
From "Beam_Remnants:Parametrised": 320 (100331) -> 0.3 %
}
}
Blob_List: Momentum Fail Statistics {
}
Decay_Channel: Kinematics max fail statistics {
}
WARNING: You are using an unsupported development branch.
Remnant handling yields 320 fails in creating good beam breakups.
Remnant Kinematics: 320 errors (no kinematics found) and
76 warnings (scale kt down by factor of 10).
WARNING: Some settings that have been defined in the input
files and/or the command line have not been used. For more
details, see the Settings Report.
Time: 1h 4m 33s on Mon Dec 4 13:44:41 2023
(User: 1h 4m 18s, System: 0s, Children User: 0s, Children System: 0s)