References
- Duplicating Stellar Plasmas in the laboratory
April 1999 Science and Technology Review
-
Remington, B.A. : 1999, BAPS DPP99 Review of Astrophysics Experiments on Intense Lasers.
- Modern, high power laser facilities open new possibilities for simulating astrophysical
systems in the laboratory.
- Rose, S.J.: 1991, Laser & Part. Beams 9, 869
- Ripin, B.H. et al.: 1990, Laser amp; Part. Beams 8, 183
- Remington, B.A. et al.: 1999, Science 284, 1488
- Takabe, H. et al.: 1999, Plasma Phys. Contr. Fusion 41, A75
- Drake, R.P.: 1999, J. Geophys. Res. 104, 14505
- Scaled investigations of the hydrodynamics.
- Kane, J. et al.: 1999, Phys. Plasmas 6, 2065
- Drake, R.P.et al.: 1998, Ap. J. 500, L157
- Ryutov, D.et al.: 1999, Ap. J. 518, 821
- and radiative transfer.
- Wark, J. et al.: 1997, Phys. Plasmas 4, 2004
- Patel, P.K. et al.: 1997, JQSRT 58, 835
- relevant to supernovae, and opacities relevant to stellar interiors.
- Rogers, F.J., Iglesias, C.A.: 1994, Science 263, 50
- Merdji, H. et al.,: 1997, JSQRT 58, 783
- are now possible with laser experiments. Equations of state relevant to the
interiors of giant planets and brown dwarfs are also being experimentally accessed.
- Collins, G.W. et al.: 1998, Science 281, 1178
- Benuzzi, A. et al. : 1996, Phys. Rev. E 54, 2162
- With the construction of the NIF laser in the U.S.,
and the LIL and LMJ lasers in France, controlled investigations of thermonuclear
burn physics will become possible in the next decade.
And with existing and future ultra-high intensity
short pulse lasers, investigations of relativistic
astrophysical plasmas are becoming possible.
- Key, M.H. et al. :1998, Phys. Plasmas 5, 1966
- Pegoraro, F. et al.: 1997, Plasma Phys. Contr. Fus. 39, B261
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