Command "launch auto " interrupted with error, with non zero status: 1. Stop all computation
Hi all
this process:
generate e+ e- > q q [QCD]
raises this error:
Command "launch auto " interrupted with error:
Exception : program /home/lmaraf/
Please report this bug on https:/
More information is found in '/home/
what could it be the reason?
many thanks
Question information
- Language:
- English Edit question
- Status:
- Open
- Assignee:
- marco zaro Edit question
- Last query:
- Last reply:
Revision history for this message
|
#1 |
Hi Lorenzo,
what's inside
SubProcesses/
Cheers,
Marco
Revision history for this message
|
#2 |
LHAPDF 6.5.3 loading ../../.
NLL_DELTA_MSBAR PDF set, member #0, version 1
Reading INFO from grid
167343
======
INFO: MadFKS read these parameters from FKS_params.dat
======
> IRPoleCheckThre
> PrecisionVirtua
> SelectedContrib
> VetoedContribut
> QCD_squared_
> QED_squared_
> SelectedCouplin
> NHelForMCoverHels = 4
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000
> SeparateFlavour
> UsePolyVirtual = F
======
SPLIT TYPE USED: T F
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
======= Evolution parameters =======
Perturbative order: NLO
Factorisation scheme: Delta
Renormalisation scheme: MSbar
Perturbative order alpha: NLO
Evolution scheme: VFNS
NLMAX = 3, NUMAX = 2, NDMAX = 3
Mass thresholds:
me = 0.000510999 GeV
mu = 0.002160000 GeV
md = 0.004670000 GeV
ms = 0.093000000 GeV
mm = 0.105660000 GeV
mc = 1.270000000 GeV
mt = 1.776860000 GeV
mb = 4.180000000 GeV
MW = 80.379000000 GeV
MZ = 91.187600000 GeV
Alpha reference value:
Qref = 91.187600000 GeV
Alpha(Qref) = 0.007815265
Alpha evolution scheme: VFNS
NLMAXAEM = 3, NUMAXAEM = 2, NDMAXAEM = 3
W effects included in evolution
New value of alpha_s from PDF emela : 0.11799999999999999
******
* MadGraph/MadEvent *
* -------
* http://
* http://
* http://
* -------
* *
* PARAMETER AND COUPLING VALUES *
* *
******
External Params
-----
MU_R = 91.188000000000002
aEWM1 = 132.50700000000001
mdl_Gf = 1.1663900000000
aS = 0.11799999999999999
mdl_ymb = 4.7000000000000002
mdl_ymt = 173.00000000000000
mdl_ymtau = 1.7769999999999999
mdl_MT = 173.00000000000000
mdl_MB = 4.7000000000000002
mdl_MZ = 91.188000000000002
mdl_MH = 125.00000000000000
mdl_MTA = 1.7769999999999999
mdl_WT = 1.4915000000000000
mdl_WZ = 2.4414039999999999
mdl_WW = 2.0476000000000001
mdl_WH = 6.3823389999999
Internal Params
-----
mdl_lhv = 1.0000000000000000
mdl_conjg__CKM3x3 = 1.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_CKM3x3 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.000000000000
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MZ__exp__4 = 69143404.913893804
mdl_sqrt__2 = 1.4142135623730951
mdl_MH__exp__2 = 15625.000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_MB__exp__2 = 22.090000000000003
mdl_MT__exp__2 = 29929.000000000000
mdl_aEW = 7.5467711139788
mdl_MW = 80.419002445756163
mdl_sqrt__aEW = 8.6872153846781
mdl_ee = 0.30795376724436879
mdl_MW__exp__2 = 6467.2159543705357
mdl_sw2 = 0.22224648578577766
mdl_cw = 0.88190334743339216
mdl_sqrt__sw2 = 0.47143025548407230
mdl_sw = 0.47143025548407230
mdl_g1 = 0.34919219678733299
mdl_gw = 0.65323293034757990
mdl_v = 246.21845810181637
mdl_v__exp__2 = 60623.529110035903
mdl_lam = 0.12886910601690263
mdl_yb = 2.6995554250465
mdl_yt = 0.99366614581500623
mdl_ytau = 1.0206617000654
mdl_muH = 88.388347648318430
mdl_AxialZUp = -0.185177018617
mdl_AxialZDown = 0.18517701861793787
mdl_VectorZUp = 7.5430507588273
mdl_VectorZDown = -0.130303763103
mdl_VectorAUp = 0.20530251149624587
mdl_VectorADown = -0.102651255748
mdl_VectorWmDxU = 0.23095271737156670
mdl_AxialWmDxU = -0.230952717371
mdl_VectorWpUxD = 0.23095271737156670
mdl_AxialWpUxD = -0.230952717371
mdl_I1x33 = (2.699555425046
mdl_I2x33 = (0.993666145815
mdl_I3x33 = (0.993666145815
mdl_I4x33 = (2.699555425046
mdl_Vector_tbGp = (-0.96667059156
mdl_Axial_tbGp = (-1.02066170006
mdl_Vector_tbGm = (0.966670591564
mdl_Axial_tbGm = (-1.02066170006
mdl_gw__exp__2 = 0.42671326129048615
mdl_cw__exp__2 = 0.77775351421422245
mdl_ee__exp__2 = 9.4835522759998
mdl_sw__exp__2 = 0.22224648578577769
mdl_yb__exp__2 = 7.2875994928982
mdl_yt__exp__2 = 0.98737240933884918
Internal Params evaluated point by point
-----
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_R2MixedFac
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 8315.2513440000002
Couplings of loop_sm
-----
GC_5 = 0.00000E+00 0.12177E+01
UVWfct_b_0_1eps -0.18780E-01 0.00000E+00
R2_DDA = 0.00000E+00 0.25704E-02
R2_UUA = -0.00000E+00 -0.51409E-02
R2_DDZ_V2 = 0.00000E+00 0.72127E-02
R2_DDZ_V3 = 0.00000E+00 0.68702E-03
UVWfct_b_0 = -0.13642E+00 -0.00000E+00
GC_1 = -0.00000E+00 -0.10265E+00
GC_2 = 0.00000E+00 0.20530E+00
GC_21 = -0.00000E+00 -0.28804E+00
GC_23 = -0.00000E+00 -0.27437E-01
GC_24 = 0.00000E+00 0.82310E-01
GC_25 = 0.00000E+00 0.30795E+00
Collider parameters:
------
Running at e-e+ machine @ 1000.0000000000000 GeV
PDF set = emela
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
AMP_SPLIT: 1 correspond to S.O. 0 4
orders_tag_plot= 402 for QCD,QED, = 2 , 4 ,
AMP_SPLIT: 2 correspond to S.O. 2 4
getting user params
Enter number of events and iterations:
Number of events and iterations -1 12
Enter desired fractional accuracy:
Desired fractional accuracy: 2.9999999999999
Enter alpha, beta for G_soft
Enter alpha<0 to set G_soft=1 (no ME soft)
for G_soft: alpha= 1.0000000000000000 , beta= -0.100000000000
Enter alpha, beta for G_azi
Enter alpha>0 to set G_azi=0 (no azi corr)
for G_azi: alpha= -1.0000000000000000 , beta= -0.100000000000
Doing the S and H events together
Suppress amplitude (0 no, 1 yes)?
Using suppressed amplitude.
Exact helicity sum (0 yes, n = number/event)?
Do MC over helicities for the virtuals
Enter Configuration Number:
Running Configuration Number: 2 0
Enter running mode for MINT:
0 to set-up grids, 1 to integrate, 2 to generate events
MINT running mode: 0
Set the three folding parameters for MINT
xi_i, phi_i, y_ij
1 1 1
'all ', 'born', 'real', 'virt', 'novi' or 'grid'?
Enter 'born0' or 'virt0' to perform
a pure n-body integration (no S functions)
doing the all of this channel
Normal integration (Sfunction != 1)
about to integrate 7 -1 12 2
imode is 0
channel 1 : 2 T 0 0 0.1000E+01 0.0000E+00 0.1000E+01
#------
# FastJet release 3.1.3 [fjcore]
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://
#
# 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.
#------
STOP 1
Thanks for using LHAPDF 6.5.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://
------- iteration 1
Update # PS points (even_rn): 560 --> 512
Using random seed offsets: 2 , 2 , 0
with seed 33
Ranmar initialization seeds 11950 9409
Total number of FKS directories is 2
FKS process map (sum= 3 ) :
1 --> 1 : 1
2 --> 1 : 2
======
process combination map (specified per FKS dir):
1 map 1 2
1 inv. map 1 2
2 map 1 2
2 inv. map 1 2
======
tau_min 1 1 : 0.20000E+02 0.20000E+02 0.91188E+02
tau_min 2 1 : 0.20000E+02 0.20000E+02 0.91188E+02
Scale values (may change event by event):
muR, muR_reference: 0.363341D+02 0.363341D+02 1.00
muF1, muF1_reference: 0.363341D+02 0.363341D+02 1.00
muF2, muF2_reference: 0.363341D+02 0.363341D+02 1.00
QES, QES_reference: 0.363341D+02 0.363341D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.13708873873188859
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: keeping split order 1
counterterm S.O 2 QED
BORN: not keeping split order 1
Parameters related to the different treatment of alpha in ME and PDFs
alphascheme 2
nlep_run 3
nupq_run 2
ndnq_run 3
w_run 1
change of scheme factors for gmu not implemented
Time in seconds: 0
Revision history for this message
|
#3 |
Hi Lorenzo
since you generated the process in the Gmu scheme, you should employ the PDFs in the same scheme, so
> NLL_DELTA_GMU
Cheers,
Marco
> On 4 Nov 2022, at 12:25, lorenzo marafatto <email address hidden> wrote:
>
> Question #703718 on MadGraph5_aMC@NLO changed:
> https:/
>
> Status: Answered => Open
>
> lorenzo marafatto is still having a problem:
> LHAPDF 6.5.3 loading ../../.
> NLL_DELTA_MSBAR PDF set, member #0, version 1
> Reading INFO from grid
> 167343
> =======
> INFO: MadFKS read these parameters from FKS_params.dat
> =======
>> IRPoleCheckThre
>> PrecisionVirtua
>> SelectedContrib
>> VetoedContribut
>> QCD_squared_
>> QED_squared_
>> SelectedCouplin
>> NHelForMCoverHels = 4
>> VirtualFraction = 1.0000000000000000
>> MinVirtualFraction = 5.0000000000000
>> SeparateFlavour
>> UsePolyVirtual = F
> =======
> SPLIT TYPE USED: T F
> A PDF is used, so alpha_s(MZ) is going to be modified
> Old value of alpha_s from param_card: 0.11799999999999999
>
> ======= Evolution parameters =======
>
> Perturbative order: NLO
> Factorisation scheme: Delta
> Renormalisation scheme: MSbar
> Perturbative order alpha: NLO
> Evolution scheme: VFNS
> NLMAX = 3, NUMAX = 2, NDMAX = 3
> Mass thresholds:
> me = 0.000510999 GeV
> mu = 0.002160000 GeV
> md = 0.004670000 GeV
> ms = 0.093000000 GeV
> mm = 0.105660000 GeV
> mc = 1.270000000 GeV
> mt = 1.776860000 GeV
> mb = 4.180000000 GeV
> MW = 80.379000000 GeV
> MZ = 91.187600000 GeV
> Alpha reference value:
> Qref = 91.187600000 GeV
> Alpha(Qref) = 0.007815265
> Alpha evolution scheme: VFNS
> NLMAXAEM = 3, NUMAXAEM = 2, NDMAXAEM = 3
> W effects included in evolution
> New value of alpha_s from PDF emela : 0.11799999999999999
> *******
> * MadGraph/MadEvent *
> * -------
> * http://
> * http://
> * http://
> * -------
> * *
> * PARAMETER AND COUPLING VALUES *
> * *
> *******
>
> External Params
> -------
>
> MU_R = 91.188000000000002
> aEWM1 = 132.50700000000001
> mdl_Gf = 1.1663900000000
> aS = 0.11799999999999999
> mdl_ymb = 4.7000000000000002
> mdl_ymt = 173.00000000000000
> mdl_ymtau = 1.7769999999999999
> mdl_MT = 173.00000000000000
> mdl_MB = 4.7000000000000002
> mdl_MZ = 91.188000000000002
> mdl_MH = 125.00000000000000
> mdl_MTA = 1.7769999999999999
> mdl_WT = 1.4915000000000000
> mdl_WZ = 2.4414039999999999
> mdl_WW = 2.0476000000000001
> mdl_WH = 6.3823389999999
> Internal Params
> -------
>
> mdl_lhv = 1.0000000000000000
> mdl_conjg__CKM3x3 = 1.0000000000000000
> mdl_conjg__CKM22 = 1.0000000000000000
> mdl_CKM3x3 = 1.0000000000000000
> mdl_CKM33 = 1.0000000000000000
> mdl_CKM22 = 1.0000000000000000
> mdl_Ncol = 3.0000000000000000
> mdl_CA = 3.0000000000000000
> mdl_TF = 0.50000000000000000
> mdl_CF = 1.3333333333333333
> mdl_complexi = (0.000000000000
> mdl_MZ__exp__2 = 8315.2513440000002
> mdl_MZ__exp__4 = 69143404.913893804
> mdl_sqrt__2 = 1.4142135623730951
> mdl_MH__exp__2 = 15625.000000000000
> mdl_Ncol__exp__2 = 9.0000000000000000
> mdl_MB__exp__2 = 22.090000000000003
> mdl_MT__exp__2 = 29929.000000000000
> mdl_aEW = 7.5467711139788
> mdl_MW = 80.419002445756163
> mdl_sqrt__aEW = 8.6872153846781
> mdl_ee = 0.30795376724436879
> mdl_MW__exp__2 = 6467.2159543705357
> mdl_sw2 = 0.22224648578577766
> mdl_cw = 0.88190334743339216
> mdl_sqrt__sw2 = 0.47143025548407230
> mdl_sw = 0.47143025548407230
> mdl_g1 = 0.34919219678733299
> mdl_gw = 0.65323293034757990
> mdl_v = 246.21845810181637
> mdl_v__exp__2 = 60623.529110035903
> mdl_lam = 0.12886910601690263
> mdl_yb = 2.6995554250465
> mdl_yt = 0.99366614581500623
> mdl_ytau = 1.0206617000654
> mdl_muH = 88.388347648318430
> mdl_AxialZUp = -0.185177018617
> mdl_AxialZDown = 0.18517701861793787
> mdl_VectorZUp = 7.5430507588273
> mdl_VectorZDown = -0.130303763103
> mdl_VectorAUp = 0.20530251149624587
> mdl_VectorADown = -0.102651255748
> mdl_VectorWmDxU = 0.23095271737156670
> mdl_AxialWmDxU = -0.230952717371
> mdl_VectorWpUxD = 0.23095271737156670
> mdl_AxialWpUxD = -0.230952717371
> mdl_I1x33 = (2.699555425046
> mdl_I2x33 = (0.993666145815
> mdl_I3x33 = (0.993666145815
> mdl_I4x33 = (2.699555425046
> mdl_Vector_tbGp = (-0.96667059156
> mdl_Axial_tbGp = (-1.02066170006
> mdl_Vector_tbGm = (0.966670591564
> mdl_Axial_tbGm = (-1.02066170006
> mdl_gw__exp__2 = 0.42671326129048615
> mdl_cw__exp__2 = 0.77775351421422245
> mdl_ee__exp__2 = 9.4835522759998
> mdl_sw__exp__2 = 0.22224648578577769
> mdl_yb__exp__2 = 7.2875994928982
> mdl_yt__exp__2 = 0.98737240933884918
> Internal Params evaluated point by point
> -------
>
> mdl_sqrt__aS = 0.34351128074635334
> mdl_G__exp__4 = 2.1987899468922913
> mdl_G__exp__2 = 1.4828317324943823
> mdl_R2MixedFact
> mdl_G__exp__3 = 1.8056676068262196
> mdl_MU_R__exp__2 = 8315.2513440000002
> Couplings of loop_sm
> -------
>
> GC_5 = 0.00000E+00 0.12177E+01
> UVWfct_b_0_1eps -0.18780E-01 0.00000E+00
> R2_DDA = 0.00000E+00 0.25704E-02
> R2_UUA = -0.00000E+00 -0.51409E-02
> R2_DDZ_V2 = 0.00000E+00 0.72127E-02
> R2_DDZ_V3 = 0.00000E+00 0.68702E-03
> UVWfct_b_0 = -0.13642E+00 -0.00000E+00
> GC_1 = -0.00000E+00 -0.10265E+00
> GC_2 = 0.00000E+00 0.20530E+00
> GC_21 = -0.00000E+00 -0.28804E+00
> GC_23 = -0.00000E+00 -0.27437E-01
> GC_24 = 0.00000E+00 0.82310E-01
> GC_25 = 0.00000E+00 0.30795E+00
>
> Collider parameters:
> -------
>
> Running at e-e+ machine @ 1000.0000000000000 GeV
> PDF set = emela
> alpha_s(Mz)= 0.1180 running at 2 loops.
> alpha_s(Mz)= 0.1180 running at 2 loops.
> Renormalization scale set on event-by-event basis
> Factorization scale set on event-by-event basis
>
>
> INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
> orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
> AMP_SPLIT: 1 correspond to S.O. 0 4
> orders_tag_plot= 402 for QCD,QED, = 2 , 4 ,
> AMP_SPLIT: 2 correspond to S.O. 2 4
> getting user params
> Enter number of events and iterations:
> Number of events and iterations -1 12
> Enter desired fractional accuracy:
> Desired fractional accuracy: 2.9999999999999
> Enter alpha, beta for G_soft
> Enter alpha<0 to set G_soft=1 (no ME soft)
> for G_soft: alpha= 1.0000000000000000 , beta= -0.100000000000
> Enter alpha, beta for G_azi
> Enter alpha>0 to set G_azi=0 (no azi corr)
> for G_azi: alpha= -1.0000000000000000 , beta= -0.100000000000
> Doing the S and H events together
> Suppress amplitude (0 no, 1 yes)?
> Using suppressed amplitude.
> Exact helicity sum (0 yes, n = number/event)?
> Do MC over helicities for the virtuals
> Enter Configuration Number:
> Running Configuration Number: 2 0
> Enter running mode for MINT:
> 0 to set-up grids, 1 to integrate, 2 to generate events
> MINT running mode: 0
> Set the three folding parameters for MINT
> xi_i, phi_i, y_ij
> 1 1 1
> 'all ', 'born', 'real', 'virt', 'novi' or 'grid'?
> Enter 'born0' or 'virt0' to perform
> a pure n-body integration (no S functions)
> doing the all of this channel
> Normal integration (Sfunction != 1)
> about to integrate 7 -1 12 2
> imode is 0
> channel 1 : 2 T 0 0 0.1000E+01 0.0000E+00 0.1000E+01
> #------
> # FastJet release 3.1.3 [fjcore]
> # M. Cacciari, G.P. Salam and G. Soyez
> # A software package for jet finding and analysis at colliders
> # http://
> #
> # 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.
> #------
> STOP 1
> Thanks for using LHAPDF 6.5.3. Please make sure to cite the paper:
> Eur.Phys.J. C75 (2015) 3, 132 (http://
> ------- iteration 1
> Update # PS points (even_rn): 560 --> 512
> Using random seed offsets: 2 , 2 , 0
> with seed 33
> Ranmar initialization seeds 11950 9409
> Total number of FKS directories is 2
> FKS process map (sum= 3 ) :
> 1 --> 1 : 1
> 2 --> 1 : 2
> =======
> process combination map (specified per FKS dir):
> 1 map 1 2
> 1 inv. map 1 2
> 2 map 1 2
> 2 inv. map 1 2
> =======
> tau_min 1 1 : 0.20000E+02 0.20000E+02 0.91188E+02
> tau_min 2 1 : 0.20000E+02 0.20000E+02 0.91188E+02
> Scale values (may change event by event):
> muR, muR_reference: 0.363341D+02 0.363341D+02 1.00
> muF1, muF1_reference: 0.363341D+02 0.363341D+02 1.00
> muF2, muF2_reference: 0.363341D+02 0.363341D+02 1.00
> QES, QES_reference: 0.363341D+02 0.363341D+02 1.00
>
> muR_reference [functional form]:
> H_T/2 := sum_i mT(i)/2, i=final state
> muF1_reference [functional form]:
> H_T/2 := sum_i mT(i)/2, i=final state
> muF2_reference [functional form]:
> H_T/2 := sum_i mT(i)/2, i=final state
> QES_reference [functional form]:
> H_T/2 := sum_i mT(i)/2, i=final state
>
> alpha_s= 0.13708873873188859
> BORN: keeping split order 1
> counterterm S.O 1 QCD
> BORN: keeping split order 1
> counterterm S.O 2 QED
> BORN: not keeping split order 1
> Parameters related to the different treatment of alpha in ME and PDFs
> alphascheme 2
> nlep_run 3
> nupq_run 2
> ndnq_run 3
> w_run 1
> change of scheme factors for gmu not implemented
> Time in seconds: 0
>
> --
> You received this question notification because you are assigned to this
> question.
Revision history for this message
|
#4 |
perfect
how could I generate the same process
in order to use the NLL_DELTA_MSBAR?
that is: e+ e- > q q [QCD] ?
many thanks again
Revision history for this message
|
#5 |
wait,
we are speaking here of NLO EW corrections.
I see you are doing QCD corrections, likely with the model
loop_sm
which is yet in a different input scheme (it has gf, alpha and mz as input parameter, while mw is derived).
What do you exactly need to do?
Cheers,
Marco
> On 4 Nov 2022, at 12:35, lorenzo marafatto <email address hidden> wrote:
>
> Question #703718 on MadGraph5_aMC@NLO changed:
> https:/
>
> Status: Answered => Open
>
> lorenzo marafatto is still having a problem:
> perfect
>
> how could I generate the same process
> in order to use the NLL_DELTA_MSBAR?
>
> that is: e+ e- > q q [QCD] ?
>
> many thanks again
>
> --
> You received this question notification because you are assigned to this
> question.
Revision history for this message
|
#6 |
I need to do a calculation of cross section using NLO NLL and another using NLO LL accuracy
many thanks again
Revision history for this message
|
#7 |
ciao Marco
che modello devo importare per correzioni EW con loop?
grazie molte
Lorenzo
Il venerdì 4 novembre 2022 13:40:51 CET, marco zaro <email address hidden> ha scritto:
Your question #703718 on MadGraph5_aMC@NLO changed:
https:/
Status: Open => Answered
marco zaro proposed the following answer:
wait,
we are speaking here of NLO EW corrections.
I see you are doing QCD corrections, likely with the model
loop_sm
which is yet in a different input scheme (it has gf, alpha and mz as input parameter, while mw is derived).
What do you exactly need to do?
Cheers,
Marco
> On 4 Nov 2022, at 12:35, lorenzo marafatto <email address hidden> wrote:
>
> Question #703718 on MadGraph5_aMC@NLO changed:
> https:/
>
> Status: Answered => Open
>
> lorenzo marafatto is still having a problem:
> perfect
>
> how could I generate the same process
> in order to use the NLL_DELTA_MSBAR?
>
> that is: e+ e- > q q [QCD] ?
>
> many thanks again
>
> --
> You received this question notification because you are assigned to this
> question.
--
If this answers your question, please go to the following page to let us
know that it is solved:
https:/
If you still need help, you can reply to this email or go to the
following page to enter your feedback:
https:/
You received this question notification because you asked the question.
Can you help with this problem?
Provide an answer of your own, or ask lorenzo marafatto for more information if necessary.