Petawatt-laser direct heating of uniformly imploded deuterated-polystyrene shell target
Abstract
A uniformly imploded deuterated polystyrene (CD) shell target is fast-heated by a Petawatt (PW) laser without cone guide. The best illumination timing is found to be in a narrow region around 80±20picoseconds from the onset of the stagnation phase, where thermal neutrons are enhanced four to five times by the PW laser of energy less than 10% of the implosion laser. The timing agrees with the timings of enhancement of the x-ray emission from the core and reduction of the bremsstrahlung radiation from scattered hot electrons. The PW laser, focused to the critical density point, generates the energetic electrons within as narrow an angle as 30°, which then heats the imploded CD shell to enhance thermal neutrons. These results first demonstrate that the PW laser directly heats the imploded core without any conelike laser guide.
- Publication:
-
Physical Review E
- Pub Date:
- January 2005
- DOI:
- 10.1103/PhysRevE.71.016403
- Bibcode:
- 2005PhRvE..71a6403K
- Keywords:
-
- 52.38.Kd;
- 41.75.Jv;
- 52.35.Mw;
- Laser-plasma acceleration of electrons and ions;
- Laser-driven acceleration;
- Nonlinear phenomena: waves wave propagation and other interactions