Revised Knudsen-layer reduction of fusion reactivity

Recent work by Molvig et al. [Phys. Rev. Lett. 109, 095001 (2012)] examined how fusion reactivity may be reduced from losses of fast ions in finite assemblies of fuel. In this paper, this problem is revisited with the addition of an asymptotic boundary-layer treatment of ion kinetic losses. This boundary solution, reminiscent of the classical Milne problem from linear transport theory, obtains a free-streaming limit of fast ion losses near the boundary, where the diffusion approximation is invalid. Thermonuclear reaction rates have been obtained for the ion distribution functions predicted by this improved model. It is found that while Molvig's “Knudsen distribution function” bounds from above the magnitude of the reactivity reduction, this more accurate treatment leads to less dramatic losses of tail ions and associated reduction of thermonuclear reaction rates for finite fuel volumes.

[1]  D. Henderson Burn Characteristics of Marginal Deuterium-Tritium Microspheres , 1974 .

[2]  A. Petschek,et al.  Influence of high-energy ion loss on DT reaction rate in laser fusion pellets , 1979 .

[3]  H. Bosch,et al.  ERRATUM: Improved formulas for fusion cross-sections and thermal reactivities , 1992 .

[4]  B. Albright,et al.  Parallel heat diffusion and subdiffusion in random magnetic fields , 2001 .

[5]  Richard D. Petrasso,et al.  Tests of the hydrodynamic equivalence of direct-drive implosions with different D2 and He3 mixtures , 2006 .

[6]  Arthur Nobile,et al.  Anomalous yield reduction in direct-drive deuterium/tritium implosions due to H3e additiona) , 2009 .

[7]  Peter A. Amendt,et al.  The potential role of electric fields and plasma barodiffusion on the inertial confinement fusion databasea) , 2011 .

[8]  Robert B Webster,et al.  Knudsen layer reduction of fusion reactivity. , 2012, Physical review letters.

[9]  Xianzhu Tang,et al.  Electro-diffusion in a plasma with two ion species , 2012, 1204.1312.

[10]  O. Larroche,et al.  Ion Fokker-Planck simulation of D-3He gas target implosions , 2012 .

[11]  S. Wilks,et al.  Plasma adiabatic lapse rate. , 2012, Physical review letters.

[12]  Frederick J. Wysocki,et al.  The effects of laser absorption on direct-drive capsule experiments at OMEGA , 2012 .

[13]  J. R. Rygg,et al.  Evidence for stratification of deuterium-tritium fuel in inertial confinement fusion implosions. , 2012, Physical review letters.

[14]  P. Schmit,et al.  Tail-ion transport and Knudsen layer formation in the presence of magnetic fields. , 2013 .