MPGD Web>GEMTestBeamAndBkgMod>Phase2BkgFLUKA (2017-11-26, AlfredoCastaned)

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-- AlfredoCastaned - 2017-05-28

Contents:

CMS-FLUKA simulation for the background condition during Phase-2 for the muon upgrade subsystems
- TDR plots
- Other plots

CMS-FLUKA simulation for the background condition during Phase-2 for the muon upgrade subsystems

TDR plots

CMS-FLUKA Phase-2 geometry

Figure	Caption
CMS_FLUKA_Phase2_new.PNG	The CMS FLUKA geometry model used in these simulations represents a phase II upgrade configuration. It includes a representation of the detector configuration as described in the Phase II Technical Proposal with the HGCal option, described in full in [CERN-LHCC-2015-010, p.377-382]. The end-cap calorimeters are represented with a preliminary model of the High Granularity Calorimeter (HGC) and the HE rebuild (covering up to 3 in the pseudorapidity range). The image shows a zoom into one-quarter of the CMS detector where the end-cap calorimeters and the existing muon chambers (DTs, RPCs, CSCs) can be identified. The Phase-2 upgrade muon system detectors were included (ME0, GE1/1, GE2/1, RE3/1, RE4/1) with the best knowledge on the dimensions and materials up-to-date. However, this model has been modified to include a representation the latest beampipe upgrade design (CERN integration office design v5.4.1, with default beryllium length of 1.9m), and represent a TAS diameter of 60 mm. Thus the representation of the beampipe in this phase II model includes a cylindrical beryllium section from Z = 0 cm to Z = 1.9m from the IP where it transitions to Aluminum until bellows at Z~3m. The 'endcap' beampipe section is represented as an aluminum conical section at eta = 5.661 from Z ~ 3.5 m until Z ~ 14m.

Figure

Caption

CMS_FLUKA_Phase2_new.PNG

The CMS FLUKA geometry model used in these simulations represents a phase II upgrade configuration. It includes a representation of the detector configuration as described in the Phase II Technical Proposal with the HGCal option, described in full in [CERN-LHCC-2015-010, p.377-382]. The end-cap calorimeters are represented with a preliminary model of the High Granularity Calorimeter (HGC) and the HE rebuild (covering up to 3 in the pseudorapidity range). The image shows a zoom into one-quarter of the CMS detector where the end-cap calorimeters and the existing muon chambers (DTs, RPCs, CSCs) can be identified. The Phase-2 upgrade muon system detectors were included (ME0, GE1/1, GE2/1, RE3/1, RE4/1) with the best knowledge on the dimensions and materials up-to-date. However, this model has been modified to include a representation the latest beampipe upgrade design (CERN integration office design v5.4.1, with default beryllium length of 1.9m), and represent a TAS diameter of 60 mm. Thus the representation of the beampipe in this phase II model includes a cylindrical beryllium section from Z = 0 cm to Z = 1.9m from the IP where it transitions to Aluminum until bellows at Z~3m. The 'endcap' beampipe section is represented as an aluminum conical section at eta = 5.661 from Z ~ 3.5 m until Z ~ 14m.

Neutron flux

Figure	Caption
combined_flux_neut_5E34.png	Neutron particle flux estimated for different muon stations in central and forward part of CMS detector using FLUKA simulations of proton-proton collisions at 7 TeV per beam with a Phase II geometry model. Results are normalized for an instantaneous luminosity of 5x10E34 cm-2s-1 assuming an inelastic scattering cross section of 80 mb.

Photon flux

Figure	Caption
combined_flux_ph_5E34.png	Photon particle flux estimated for different muon station in central and forward part of CMS detector using FLUKA simulations of proton-proton collisions at 7 TeV per beam with a Phase II geometry model. Results are normalized for an instantaneous luminosity of 5x10E34 cm-2s-1 assuming an inelastic scattering cross section of 80 mb.

Radiation dose

Figure	Caption
combined_dose_3000fbinv.png	Absorbed dose estimated for different muon stations in central and forward part of CMS detector using FLUKA simulations of proton-proton collisions at 7 TeV per beam with a Phase II geometry model. Results are normalized to an integrated luminosity of 3000 fbinv assuming an inelastic scattering cross section of 80 mb.

Energy distributions

Figure	Caption
energy_me11_neut.png	Energy spectra of neutrons entering ME1/1 predicted using FLUKA simulations of proton-proton collisions at 7 TeV per beam with a Phase II geometry model. Results are normalized for an instantaneous luminosity of 5x10E34 cm-2s-1, assuming an inelastic scattering cross section of 80 mb.

Figure	Caption
energy_me11_em.png	Energy spectra of photon and electrons/positrons entering ME1/1 predicted using FLUKA simulations of proton-proton collisions at 7 TeV per beam with a Phase II geometry model. Results are normalized for an instantaneous luminosity of 5x10E34 cm-2s-1, assuming an inelastic scattering cross section of 80 mb.

Background Hit distributions

Figure	Caption
RE31_hit_rate.png	Estimated Background Hit Rate extracted with a combination of FLUKA and GEANT4 simulations. A CMS Phase II FLUKA Study, v3.7.7.0, is used to estimated the background particle flux arriving at the upgrade RE3/1 station resulting from proton-proton collisions at 7 TeV per beam. Results are normalized for an instantaneous luminosity of 5x10E34 cm-2s-1 assuming an inelastic scattering cross section of 80 mb. GEANT 4 is used to simulate the probability for each background particle to generate a signal (sensitivity). Thus the plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution.

Figure

Caption

RE31_hit_rate.png

Estimated Background Hit Rate extracted with a combination of FLUKA and GEANT4 simulations. A CMS Phase II FLUKA Study, v3.7.7.0, is used to estimated the background particle flux arriving at the upgrade RE3/1 station resulting from proton-proton collisions at 7 TeV per beam. Results are normalized for an instantaneous luminosity of 5x10E34 cm-2s-1 assuming an inelastic scattering cross section of 80 mb. GEANT 4 is used to simulate the probability for each background particle to generate a signal (sensitivity). Thus the plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution.

Figure	Caption
RE4_hit_rate.png	Estimated Background Hit Rate extracted with a combination of FLUKA and GEANT4 simulations. A CMS Phase I FLUKA Study v3.0.0.0 is used to estimated the background particle flux arriving at the RE4/2+RE4/3 stations resulting from proton-proton collisions at 6.5 TeV per beam. Results are normalized for an instantaneous luminosity of 1x10E34 cm-2s-1 assuming an inelastic scattering cross section of 80 mb. GEANT 4 is used to simulate the probability for each background particle to generate a signal (sensitivity). Thus the plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity, the total contribution from simulation and the experimental measurements collected during 2016 corresponding to a luminosity of ~1x10E34 cm-2s-1.

Figure

Caption

RE4_hit_rate.png

Estimated Background Hit Rate extracted with a combination of FLUKA and GEANT4 simulations. A CMS Phase I FLUKA Study v3.0.0.0 is used to estimated the background particle flux arriving at the RE4/2+RE4/3 stations resulting from proton-proton collisions at 6.5 TeV per beam. Results are normalized for an instantaneous luminosity of 1x10E34 cm-2s-1 assuming an inelastic scattering cross section of 80 mb. GEANT 4 is used to simulate the probability for each background particle to generate a signal (sensitivity). Thus the plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity, the total contribution from simulation and the experimental measurements collected during 2016 corresponding to a luminosity of ~1x10E34 cm-2s-1.

Other plots

Neutron particle flux

Figure	Caption
DT_fluxes_neut.pdf	Estimated neutron particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different DT stations.

GEMs

Figure	Caption
GEM_fluxes_neut.pdf	Estimated neutron particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different GEM stations.

RPCs

Figure	Caption
RPC_fluxes_neut.pdf	Estimated neutron particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different RPC stations.

CSCs*

Figure	Caption
CSC_fluxes_neut.pdf	Estimated neutron particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different CSC stations.

Photon particle flux

GEMs*

Figure	Caption
GEM_fluxes_ph.pdf	Estimated photon particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different GEM stations.

DTs*

Figure	Caption
DT_fluxes_ph.pdf	Estimated photon particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different DT stations.

CSCs*

Figure	Caption
CSC_fluxes_ph.pdf	Estimated photon particle flux extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different CSC stations.

Background Hit Rate

GEMs Hit Rate

Figure	Caption
GEM_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the RPC stations. The calculation considers the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and shows the total contribution for each GEM station

Figure

Caption

GEM_HitRate_Phase2.pdf

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the RPC stations. The calculation considers the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and shows the total contribution for each GEM station

ME0 Hit Rate

Figure	Caption
ME0_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade ME0 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution

GE1/1 Hit Rate

Figure	Caption
GE11_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade GE1/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution.

Figure

Caption

GE11_HitRate_Phase2.pdf

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade GE1/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution.

GE2/1 Hit Rate

Figure	Caption
GE21_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade GE2/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution.

Figure

Caption

GE21_HitRate_Phase2.pdf

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade GE2/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution.

RPCs Hit Rate

Figure	Caption
RPC_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the RPC stations. The calculation considers the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and shows the total contribution for each RPC station

Figure

Caption

RPC_HitRate_Phase2.pdf

RE3/1 Hit Rate

Figure	Caption
RE31_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade RE3/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution

Figure

Caption

RE31_HitRate_Phase2.pdf

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade RE3/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution

RE4/1 Hit Rate

Figure	Caption
RE41_HitRate_Phase2.pdf	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade RE4/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution

Figure

Caption

RE41_HitRate_Phase2.pdf

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade RE4/1 station. The plot shows the contribution of the different neutron induced background particles (neutrons, photons, e+e-) weighted according to detector sensitivity and the total contribution

Energy spectra

ME0

Figure	Caption
me0_energy.pdf	Energy spectra for different background particles extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade ME0 detector.

GE1/1

Figure	Caption
ge11_energy.pdf	Energy spectra for different background particles extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade GEM detector.

RE31

Figure	Caption
rpc_energy.pdf	Energy spectra for different background particles extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade RE31 detector.

Photons

Figure	Caption
photon_energy.pdf	Energy spectra for gamma particles extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for different upgrade detectors.

Radition Dose

ME0

Figure	Caption
me0_radiation.pdf	Radiation Dose in Gy extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an integrated luminosity of 3000fb^{-1} for ME0 detector.

Figure	Caption
me0_radiation_1D.pdf	Radiation Dose in Gy extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an integrated luminosity of 3000fb^{-1} for ME0 detector as a function of R.

GE2/1

Figure	Caption
ge21_radiation.pdf	Radiation Dose in Gy extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an integrated luminosity of 3000fb^{-1} for GE2/1 detector.

Figure	Caption
ge21_radiation_1D.pdf	Radiation Dose in Gy extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an integrated luminosity of 3000fb^{-1} for GE2/1 detector as a function of R.

RE3/1

Figure	Caption
re31_radiation.pdf	Radiation Dose in Gy extracted with FLUKA simulation considering CMS-FLUKA Phase-2 geometry (option54a) and an integrated luminosity of 3000fb^{-1} for RE3/1 detector.

Comparison FLUKA vs RPC data Run-2

Figure	Caption
RE1213_HitRate_Run2.png	Comparison of Background Hit Rate between FLUKA simulation and RPC measurements for RE1213 stations and instantaneous luminosity of 1x10E34cm^{-2}s^{-1}. Simulation results use a Run-2 CMS geometry and detector sensitivities from a geant4 simulation.

Figure	Caption
RE2223_HitRate_Run2_mod.png	Comparison of Background Hit Rate between FLUKA simulation and RPC measurements for RE2223 stations and instantaneous luminosity of 1x10E34cm^{-2}s^{-1}. Simulation results use a Run-2 CMS geometry and detector sensitivities from a geant4 simulation.

Figure	Caption
RE3233_HitRate_Run2_mod.png	Comparison of Background Hit Rate between FLUKA simulation and RPC measurements for RE3233 stations and instantaneous luminosity of 1x10E34cm^{-2}s^{-1}. Simulation results use a Run-2 CMS geometry and detector sensitivities from a geant4 simulation.

Figure	Caption
RE4243_HitRate_Run2_mod.png	Comparison of Background Hit Rate between FLUKA simulation and RPC measurements for RE4243 stations and instantaneous luminosity of 1x10E34cm^{-2}s^{-1}. Simulation results use a Run-2 CMS geometry and detector sensitivities from a geant4 simulation.

RE3/1 and RE4/1 Background HitRate for Phase-2

Figure	Caption
/RE31_Fluxes_Phase2.png	Estimated Background HitRate for RE3/1 upgraded muon stations considering a luminosity of 5x10E34cm^{-2}s^{-1}. Simulation results use a Phase-2 CMS geometry and detector sensitivities from a geant4 simulation.

Figure	Caption
/RE41_Fluxes_Phase2.png	Estimated Background HitRate for RE4/1 upgraded muon stations considering a luminosity of 5x10E34cm^{-2}s^{-1}. Simulation results use a Phase-2 CMS geometry and detector sensitivities from a geant4 simulation.

Checks on influence of neutron shielding for RPC stations

Figure	Caption
	Regions near to the upgrade RE3/1 & RE4/1 stations for CMS FLUKA geometry option54a.

Figure	Caption
	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (e+e-) weighted according to detector sensitivity and the total contribution

Figure	Caption
	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE4/1 station of the background particles (e+e-) weighted according to detector sensitivity and the total contribution

Figure	Caption
	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (neutron) weighted according to detector sensitivity and the total contribution

Figure

Caption

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (neutron) weighted according to detector sensitivity and the total contribution

Figure	Caption
	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (neutron) weighted according to detector sensitivity and the total contribution

Figure

Caption

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (neutron) weighted according to detector sensitivity and the total contribution

Figure	Caption
	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (photon) weighted according to detector sensitivity and the total contribution

Figure

Caption

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (photon) weighted according to detector sensitivity and the total contribution

Figure	Caption
	Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (photon) weighted according to detector sensitivity and the total contribution

Figure

Caption

Estimated Background Hit Rate extracted with a combination of FLUKA+GEANT4 simulations considering CMS-FLUKA Phase-2 geometry (option54a) and an instantaneous luminosity of 5x10E34 cm-2s-1 for the upgrade station. The plot shows the contribution at the regions near to the upgrade RE3/1 station of the background particles (photon) weighted according to detector sensitivity and the total contribution

Attachments

Topic attachments
I	Attachment	History	Action	Size	Date	Who	Comment
png	CMS_FLUKA_Phase2_new.PNG	r1	manage	286.9 K	2017-07-28 - 18:46	AlfredoCastaned
pdf	CSC_fluxes_neut.pdf	r2 r1	manage	36.5 K	2017-06-13 - 23:39	AlfredoCastaned
png	CSC_fluxes_neut.png	r2 r1	manage	38.4 K	2017-06-13 - 23:39	AlfredoCastaned
pdf	CSC_fluxes_ph.pdf	r1	manage	36.3 K	2017-06-13 - 23:45	AlfredoCastaned
png	CSC_fluxes_ph.png	r1	manage	38.2 K	2017-06-13 - 23:45	AlfredoCastaned
pdf	DT_fluxes_neut.pdf	r1	manage	37.6 K	2017-05-28 - 10:13	AlfredoCastaned	DT_fluxes_neut
png	DT_fluxes_neut.png	r1	manage	61.2 K	2017-05-28 - 10:16	AlfredoCastaned	DT_fluxes_neut
pdf	DT_fluxes_ph.pdf	r1	manage	36.2 K	2017-06-07 - 08:55	AlfredoCastaned
png	DT_fluxes_ph.png	r1	manage	52.9 K	2017-06-07 - 08:55	AlfredoCastaned
pdf	GE11_HitRate_Phase2.pdf	r1	manage	27.8 K	2017-05-29 - 11:36	AlfredoCastaned
png	GE11_HitRate_Phase2.png	r1	manage	62.4 K	2017-05-29 - 11:36	AlfredoCastaned
pdf	GE21_HitRate_Phase2.pdf	r2 r1	manage	31.8 K	2017-05-28 - 14:00	AlfredoCastaned
png	GE21_HitRate_Phase2.png	r2 r1	manage	67.9 K	2017-05-28 - 14:00	AlfredoCastaned
pdf	GEM_HitRate_Phase2.pdf	r1	manage	26.9 K	2017-05-30 - 10:14	AlfredoCastaned
png	GEM_HitRate_Phase2.png	r1	manage	46.1 K	2017-05-30 - 10:14	AlfredoCastaned
pdf	GEM_fluxes_neut.pdf	r1	manage	21.8 K	2017-05-28 - 10:39	AlfredoCastaned	GEM_fluxes_neut
png	GEM_fluxes_neut.png	r1	manage	39.2 K	2017-05-28 - 10:40	AlfredoCastaned	GEM_fluxes_neut
pdf	GEM_fluxes_ph.pdf	r1	manage	21.5 K	2017-06-15 - 09:30	AlfredoCastaned
png	GEM_fluxes_ph.png	r1	manage	33.3 K	2017-06-15 - 09:30	AlfredoCastaned
pdf	ME0_HitRate_Phase2.pdf	r2 r1	manage	27.0 K	2017-05-28 - 14:00	AlfredoCastaned
png	ME0_HitRate_Phase2.png	r2 r1	manage	61.4 K	2017-05-28 - 14:00	AlfredoCastaned
png	RE1213_HitRate_Run2.png	r1	manage	64.0 K	2017-07-15 - 21:20	AlfredoCastaned
png	RE2223_HitRate_Run2_mod.png	r1	manage	59.6 K	2017-07-15 - 21:20	AlfredoCastaned
png	RE31_Fluxes_Phase2.png	r1	manage	60.4 K	2017-07-15 - 21:20	AlfredoCastaned
pdf	RE31_HitRate_Phase2.pdf	r2 r1	manage	31.2 K	2017-05-28 - 14:00	AlfredoCastaned
png	RE31_HitRate_Phase2.png	r2 r1	manage	69.1 K	2017-05-28 - 14:00	AlfredoCastaned
png	RE31_hit_rate.png	r2 r1	manage	57.0 K	2017-07-31 - 15:45	AlfredoCastaned
png	RE3233_HitRate_Run2_mod.png	r1	manage	58.2 K	2017-07-15 - 21:20	AlfredoCastaned
png	RE41_Fluxes_Phase2.png	r1	manage	62.3 K	2017-07-15 - 21:20	AlfredoCastaned
pdf	RE41_HitRate_Phase2.pdf	r2 r1	manage	30.4 K	2017-05-28 - 14:00	AlfredoCastaned
png	RE41_HitRate_Phase2.png	r2 r1	manage	70.7 K	2017-05-28 - 14:00	AlfredoCastaned
png	RE4243_HitRate_Run2_mod.png	r1	manage	58.4 K	2017-07-15 - 21:20	AlfredoCastaned
png	RE4_hit_rate.png	r3 r2 r1	manage	59.5 K	2017-07-31 - 16:02	AlfredoCastaned
pdf	RPC_HitRate_Phase2.pdf	r1	manage	37.6 K	2017-05-29 - 23:20	AlfredoCastaned
png	RPC_HitRate_Phase2.png	r1	manage	66.7 K	2017-05-29 - 23:20	AlfredoCastaned
pdf	RPC_fluxes_neut.pdf	r3 r2 r1	manage	33.3 K	2017-06-16 - 21:53	AlfredoCastaned
png	RPC_fluxes_neut_new.png	r2 r1	manage	49.2 K	2017-06-16 - 21:53	AlfredoCastaned
png	RegionsDetail.png	r1	manage	121.4 K	2017-05-29 - 08:59	SeverianoCarpinteyro
png	b_option54_rate_ep_RE31R.png	r3 r2 r1	manage	74.8 K	2017-05-29 - 12:59	SeverianoCarpinteyro
png	b_option54_rate_ep_RE41R.png	r2 r1	manage	73.8 K	2017-05-29 - 08:53	SeverianoCarpinteyro
png	b_option54_rate_neut_RE31R.png	r2 r1	manage	58.7 K	2017-05-29 - 08:54	SeverianoCarpinteyro
png	b_option54_rate_neut_RE41R.png	r2 r1	manage	53.6 K	2017-05-29 - 08:54	SeverianoCarpinteyro
png	b_option54_rate_ph_RE31R.png	r2 r1	manage	53.9 K	2017-05-29 - 08:55	SeverianoCarpinteyro
png	b_option54_rate_ph_RE41R.png	r2 r1	manage	51.3 K	2017-05-29 - 08:55	SeverianoCarpinteyro
png	combined_dose_3000fbinv.png	r2 r1	manage	181.8 K	2017-07-28 - 19:40	AlfredoCastaned
png	combined_flux_neut_5E34.png	r3 r2 r1	manage	161.5 K	2017-07-28 - 19:40	AlfredoCastaned
png	combined_flux_ph_5E34.png	r4 r3 r2 r1	manage	161.3 K	2017-11-26 - 08:33	AlfredoCastaned
png	energy_me11_em.png	r3 r2 r1	manage	41.6 K	2017-07-28 - 19:40	AlfredoCastaned
png	energy_me11_neut.png	r3 r2 r1	manage	39.2 K	2017-07-28 - 19:40	AlfredoCastaned
pdf	ge11_energy.pdf	r2 r1	manage	32.5 K	2017-06-18 - 09:36	AlfredoCastaned
png	ge11_energy_ext.png	r1	manage	38.6 K	2017-06-18 - 09:41	AlfredoCastaned
pdf	ge21_radiation.pdf	r2 r1	manage	209.6 K	2017-06-21 - 09:52	AlfredoCastaned
png	ge21_radiation.png	r2 r1	manage	34.8 K	2017-06-21 - 09:52	AlfredoCastaned
pdf	ge21_radiation_1D.pdf	r1	manage	15.3 K	2017-06-21 - 10:30	AlfredoCastaned
png	ge21_radiation_1D.png	r1	manage	42.0 K	2017-06-21 - 10:30	AlfredoCastaned
pdf	me0_energy.pdf	r3 r2 r1	manage	32.6 K	2017-06-18 - 09:36	AlfredoCastaned
png	me0_energy_ext.png	r1	manage	39.7 K	2017-06-18 - 09:41	AlfredoCastaned
pdf	me0_radiation.pdf	r1	manage	265.9 K	2017-06-21 - 09:42	AlfredoCastaned
png	me0_radiation.png	r1	manage	33.9 K	2017-06-21 - 09:42	AlfredoCastaned
pdf	me0_radiation_1D.pdf	r1	manage	20.8 K	2017-06-21 - 10:16	AlfredoCastaned
png	me0_radiation_1D.png	r1	manage	40.1 K	2017-06-21 - 10:16	AlfredoCastaned
pdf	photon_energy.pdf	r1	manage	21.4 K	2017-06-18 - 10:23	AlfredoCastaned
png	photon_energy.png	r1	manage	41.3 K	2017-06-18 - 10:23	AlfredoCastaned
pdf	re31_radiation.pdf	r1	manage	264.1 K	2017-06-21 - 09:57	AlfredoCastaned
png	re31_radiation.png	r1	manage	43.5 K	2017-06-21 - 09:57	AlfredoCastaned
pdf	rpc_energy.pdf	r2 r1	manage	32.6 K	2017-06-18 - 09:36	AlfredoCastaned
png	rpc_energy_ext.png	r1	manage	39.2 K	2017-06-18 - 09:41	AlfredoCastaned

Topic revision: r27 - 2017-11-26 - AlfredoCastaned

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