An accelerator based fusion-product source for development of Inertial Confinement Fusion nuclear diagnostics

An accelerator based fusion-product source for development of Inertial Confinement Fusion nuclear diagnostics

Bibliographic Details
Main Authors:	Duffee, S.C., Frenje, J.A., Seguin, F.H., Leiter, R., Canavan, M.J., Casey, D.T., Rygg, J.R., Li, C.K., Petrasso, R.D.
Published:	MIT Plasma Science & Fusion Center 2015
Online Access:	http://hdl.handle.net/1721.1/94244

Similar Items

Time-dependent nuclear measurements of mix in inertial confinement fusion
by: Rygg, J.R., et al.
Published: (2015)

Evidence for stratification of deuterium-tritium fuel in inertial confinement fusion implosions
by: Casey, D.T., et al.
Published: (2015)

Proton core imaging of the nuclear burn in inertial confinement fusion implosions
by: Ciantis, J.L., et al.
Published: (2015)

Charged-particle stopping powers in inertial confinement fusion plasmas
by: Li, C.K., et al.
Published: (2015)

Impeding hohlraum plasma stagnation in inertial-confinement fusion
by: Li, C.K., et al.
Published: (2015)

Proton radiography of inertial fusion implosions
by: Seguin, F.H., et al.
Published: (2015)

Study of direct-drive capsule implosions in inertial confinement fusion with proton radiography
by: Li, C.K., et al.
Published: (2015)

Monoenergetic Proton Radiography Measurements of Implosion Dynamics in Direct-Drive Inertial Confinement Fusion
by: Li, C.K., et al.
Published: (2015)

Diagnosing Indirect-Drive Inertial-Confinement-Fusion Implosions with Charged Particles
by: Li, C.K., et al.
Published: (2015)

Effects of Nonuniform Illumination on Implosion Asymmetry in Direct-Drive Inertial Confinement Fusion
by: Li, C.K., et al.
Published: (2015)

Energy deposition of MeV electrons in compressed targets of fast-ignition inertial confinement fusion
by: Li, C.K., et al.
Published: (2015)

Measured dependence of nuclear burn region size on implosion parameters in inertial confinement fusion experiments
by: Seguin, F.H., et al.
Published: (2015)

Measurements of the differential cross section for the elastic n-[superscript 3]H and n-[superscript 2]H scattering at 14.1 MeV by using an Inertial Confinement Fusion (ICF) facility
by: Frenje, J.A., et al.
Published: (2015)

Impeding Hohlraum Plasma Stagnation in Inertial-Confinement Fusion
by: Li, C. K., et al.
Published: (2012)

Impact of asymmetries on fuel performance in inertial confinement fusion
by: Appelbe, B. D., et al.
Published: (2018)

Using laser-generated energetic protons for intertial confinement fusion radiography
by: Zylstra, A.B., et al.
Published: (2015)

Evidence for Stratification of Deuterium-Tritium Fuel in Inertial Confinement Fusion Implosions
by: Casey, Daniel Thomas, et al.
Published: (2012)

Effects of fuel-capsule shimming and drive asymmetry on inertial-confinement-fusion symmetry and yield
by: Marshall, F. J., et al.
Published: (2017)

Shock convergence and mix dynamics in inertial confinement fusion
by: Rygg, James Ryan
Published: (2007)

Implosion Experiments using Glass Ablators for Direct-Drive Inertial Confinement Fusion
by: Smalyuk, V. A., et al.
Published: (2010)

Charged-Particle Probing of X-Ray-Driven Inertial-Fusion Implosions
by: Li, C.K., et al.
Published: (2015)

Assessment of ion kinetic effects in shock-driven inertial confinement fusion implosions using fusion burn imaging
by: Amendt, P. A., et al.
Published: (2017)

Determination of the deuterium-tritium branching ratio based on inertial confinement fusion implosions
by: Rosenberg, Michael Jonathan, et al.
Published: (2012)

X-ray-imaging spectrometer (XRIS) for studies of residual kinetic energy and low-mode asymmetries in inertial confinement fusion implosions at OMEGA (invited)
by: Adrian, PJ, et al.
Published: (2023)

Core conditions for alpha heating attained in direct-drive inertial confinement fusion
by: Bose, A., et al.
Published: (2017)

Theoretical and Experimental Contributions of MIT to the FusionScience Center, and Findings of the Electron Transport Task Force
by: Petrasso, R.D., et al.
Published: (2015)

Diagnosing Inertial Confinement Fusion Implosions at OMEGA and the NIF Using Novel Neutron Spectrometry
by: Casey, D.
Published: (2015)

Thin Shell, High Velocity Inertial Confinement Fusion Implosions on the National Ignition Facility
by: Ma, T., et al.
Published: (2015)

3-DIMENSIONAL SIMULATIONS OF THE IMPLOSION OF INERTIAL CONFINEMENT FUSION-TARGETS
by: Town, R, et al.
Published: (1991)

Observations of Multiple Nuclear Reaction Histories and Fuel-Ion Species Dynamics in Shock-Driven Inertial Confinement Fusion Implosions
by: Le, A., et al.
Published: (2019)

Observation of strong electromagnetic fields around laser-entrance holes of ignition-scale hohlraums in inertial-confinement fusion experiments at the National Ignition Facility
by: Li, C. K., et al.
Published: (2013)

Diagnosing inertial confinement fusion implosions at OMEGA and the NIF Using novel neutron spectrometry
by: Casey, Daniel Thomas
Published: (2013)

MIT fusion [gamma]-ray diagnostic development
by: Wenzel, K.W., et al.
Published: (2015)

Diagnosing ablator areal density and areal density modulations in capsule implosions using charged-particle spectrometry at the National Ignition Facility (NIF)
by: Frenje, J.A., et al.
Published: (2015)

Fusion energy--the moment of truth nears
by: Petrasso, R.D.
Published: (2015)

The response of CR-39 nuclear track detector to 1-9 MeV protons
by: Sinenian, N., et al.
Published: (2015)

Using Inertial Fusion Implosions to Measure the T + [superscript 3]He Fusion Cross Section at Nucleosynthesis-Relevant Energies
by: Herrmann, H. W., et al.
Published: (2017)

T–T Neutron Spectrum from Inertial Confinement Implosions
by: Quaglioni, S., et al.
Published: (2016)

A general critique of inertial-electrostatic confinement fusion systems
by: Rider, Todd H. (Todd Harrison)
Published: (2006)

Measurements of the Differential Cross Sections for the Elastic n-[superscript 3]H and n--[superscript 2]H Scattering at 14.1 MeV by Using an Inertial Confinement Fusion Facility
by: McNabb, D. P., et al.
Published: (2012)