Monte Carlo Modeling of a Carbon-Based ICF Neutron Diagnostic

B.E. Cochran; S.H. Fay; C.M. Kuhn; E.E. Smith; S.L. Stephenson; T.C. Sangster; V. Glebov; S.J. Padalino

Monte Carlo Modeling of a Carbon-Based ICF Neutron Diagnostic

POSTER

Abstract

A carbon diagnostic system is being developed and tested at OMEGA to determine the tertiary neutron yield during an inertial confinement fusion (ICF) implosion. Past computational work has exclusively used MCNPX (Monte-Carlo N-Particle Extended), despite its inability to formally model the true time-dependent radioactive decay of $^{11}$C. Tools have been developed to efficiently extrapolate information from Ptrac files in MCNPX. In addition, modeling the system with Geant4 (GEometry ANd Tracking) as a supplement to the results obtained with MCNPX is in progress. Results will be presented.

Authors

B.E. Cochran

Gettysburg College
S.H. Fay

Gettysburg College
C.M. Kuhn

Gettysburg College
E.E. Smith

Gettysburg College
S.L. Stephenson

Gettysburg College
T.C. Sangster

Laboratory for Laser Energetics, LLE University of Rochester
V. Glebov

Laboratory for Laser Energetics, U. of Rochester, Laboratory for Laser Energetics, Labortory for Laser Energetics, LLE University of Rochester
S.J. Padalino

SUNY Geneseo