Title: Status Report of Neutron Detector Simulation Development
1Status Report of Neutron Detector Simulation
Development
- Brian Roeder
- Postdoc
- LPC Caen
- 20 Sept. 2007
2Motivation
- Development of fast neutron (1 MeV lt En lt 150
MeV) detector simulations with GEANT4 for EURISOL
DS. - Envisioned detector would have
- High detection efficiency
- Good energy and angular resolution
- Able to discriminate between neutrons ?-rays
- Challenge ? detect multiple (N ? 2) neutron
events from breakup reactions and ß - multiple n
decays.
3Recent Activities
- Event Generators
- 7He ? 6He 1n decay. A simple 1n-decay model
with relativistic dynamics. - Test detector acceptance at various energies.
Model fully included into GEANT4! - n-scattering model development
- Developed a data-based n elastic model in
GEANT4 for hydrogen and carbon.
4Event Generator 7He ?6He1n
- Generates back to back decays of 7He in rest
frame of the 7He (isotropic) then boosts n and
6He to beam energy (lab frame). - Relativistic dynamics.
- Integrated into GEANT4, based on Fortran code
from FM Marques and JL Lecouey.
5Acceptance Simple Model
T. Nakamura et al. Nebula proposal - RIKEN
6Tests of 7He evt. generator
- GEANT4 7He evt. generator reproduces maximum
neutron angle expectations. - Detector acceptance needed will depend on energy
of resonance AND available beam energy!
7Continuing Work evt. gens.
- 1n generator
- Add momentum-kick to account for how the
unbound nucleus is produced. - Generalize so that user can use to generate
events for any fragment 1n. - Develop multiple-n event generator
- Code exists (FM Marques et al.) will integrate
code into GEANT4/C framework.
8N-scattering models
- Problems/Limitations of existing n-scattering
models in GEANT4 see poster, previous task 10
meetings. - Can I do better with a home-grown model based
on total and differential cross section data?
9GEANT4 simulation - XSDiff
- A thin target simulation with a 4p, 100
efficient neutron detector. - Measures both total cross section and
differential cross section of n and recoil.
10Neutron_El_R model
- Data based model. Uses n-elastic total cross
sections from ENDF.VII for H and 12C. - Parameterized differential cross sections based
on published data (may be improved) - Rotation to account for directional
multiple-scattering. - Relativistic kinematics. Tested up to 100 MeV.
11Test Results for H and 12C
- Reproduces flat (isotropic) n-p scattering
differential cross section. - Working on parameterization of 12C differential
cross section. Gaussian not bad.
N. Boukharouba et al., Phys. Rev. C 65, 014004
T. Kaneko et al., Phys. Rev. C 46, 298 (1992).
12Improvements to Sims.?
- Efficiency looks good, but now need to look at
inelastic reactions in more detail. - Cross-talk looks good, but is the elastic
scattering cross-talk over-estimated? Need to
look at inelastic reactions.
13Upcoming development
- Event Generators -
- Integrate fragment - multiple-n event generators
into GEANT4. - Develop ideal detector for 1n to 4n breakup.
- Use also to study experimental issues (crosstalk,
etc.). - N-scattering models -
- Develop inelastic models for scattering on
carbon and key detector materials. Leads to
realistic efficiency and cross-talk simulations.
14Kiitos to Collaborators!
- F.M. Marques, J.L. Lecouey, B. Laurent, N.A. Orr
LPC Caen - M. Labiche
15Efficiency and Cross-talk Sims.
- Efficiency of n-events detected over
threshold (0.5 MeVee) - Cross-talk Number of coincident events in
detector M1/Number of Events in detector M0.
16Custom model in GEANT4
- n-p elastic scattering known to be isotropic in
center of mass for fast neutrons at low energies
(between 1 MeV and 30 MeV). - Developed a discrete process in GEANT4 that
scatters neutron on the proton in center of mass
and then converts to final energy and scattering
angle in lab. - Calculate mean free path in model according to
known n-elastic scattering cross sections from
ENDF/B-VII.0. - Results In thin-target simulation, total cross
section and experimental angular distribution
reproduced by simulation. - Also fixes problem with DEMON detection
efficiency simulation between 1 and 5 MeV.
N. Boukharouba et al., Phys. Rev. C 65, 014004
G.F. Knoll, Radiation Detection and Measurement,
Chapter 15, Pgs. 570-575