Model of neutron-production rates from femtosecond-laser–cluster interactions
- 16 May 2001
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 63 (6) , 063203
- https://doi.org/10.1103/physreva.63.063203
Abstract
Solid deuterium clusters provide a new type of target for laser-matter interactions. We present a theory for the generation of laser driven Coulomb explosions that create a hot fusion-producing ion tail. We derive an initial distribution function for the exploded ions, for an arbitrary cluster-size distribution, and solve for the D-D neutron-production rate during the free expansion of these ions into a vacuum. We find good agreement between the theory and the experiment: the theory suggests an explanation for the observed saturation and drop in neutron yield beyond a definite cluster size, consistent with recent experiments by Ditmire [T. Ditmire et al., Nature 398, 489 (1999)] and Zweiback [J. Zweiback et al., Phys. Rev. Lett. 84, 2634 (2000); J. Zweiback et al., Phys. Rev. Lett. 85, 3640 (2000)].Keywords
This publication has 10 references indexed in Scilit:
- Characterization of Fusion Burn Time in Exploding Deuterium Cluster PlasmasPhysical Review Letters, 2000
- Nuclear Fusion Driven by Coulomb Explosions of Large Deuterium ClustersPhysical Review Letters, 2000
- The investigation of high intensity laser driven micro neutron sources for fusion materials research at high fluenceNuclear Fusion, 2000
- Femtosecond time-resolved studies of the dynamics of noble-gas cluster explosionsPhysical Review A, 1999
- Nuclear fusion from explosions of femtosecond laser-heated deuterium clustersNature, 1999
- Interaction of intense laser pulses with atomic clustersPhysical Review A, 1996
- Improved formulas for fusion cross-sections and thermal reactivitiesNuclear Fusion, 1992
- Roles of Ion Motion and of Return Currents in Transverse Instability of Colliding PlasmasPhysics of Fluids, 1972
- Electricity and MagnetismAmerican Journal of Physics, 1967
- Collisionless expansion of gases into vacuumJournal of Fluid Mechanics, 1962