Proceedings of Vibration Problems, Volume 15Państwowe Wydawn. Naukowe., 1974 - Vibration |
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Page 80
... pressure on the surface of a plasma ball , and assume parametric velocity distribution in the same manner as was ... pressure . For variable pressure , we can apply a sectionally constant pressure . Then , the solution is constructed by ...
... pressure on the surface of a plasma ball , and assume parametric velocity distribution in the same manner as was ... pressure . For variable pressure , we can apply a sectionally constant pressure . Then , the solution is constructed by ...
Page 96
... pressure wave front at the boundary . However , the pressure wave front at the boundary approaches gradually the shock wave front produced by the temperature . For times of about 0.55 ns - that is , when the electron and ion ...
... pressure wave front at the boundary . However , the pressure wave front at the boundary approaches gradually the shock wave front produced by the temperature . For times of about 0.55 ns - that is , when the electron and ion ...
Page 130
... pressure necessary for obtaining a compression of about 103. In Sec . 3 , the corresponding energy of laser pulse will be estimated and the conclusions will be summed up . 2. Determination of the Minimum Energy Necessary for a ...
... pressure necessary for obtaining a compression of about 103. In Sec . 3 , the corresponding energy of laser pulse will be estimated and the conclusions will be summed up . 2. Determination of the Minimum Energy Necessary for a ...
Contents
S KALISKI Laser compression of DT with precompression by explosion | 3 |
S KALISKI Approximate closedform solution of the problem of source of radiation generating | 17 |
J KAPELEWSKI Surface waves in ionic crystals of body centered cubical structure Part II Solution | 23 |
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a₁ Acad Academy of Sciences approximation assumed averaged equations body boundary conditions boundary problems coefficient compression of plasma concentric shock considered constant cumulation density determined distribution drgań dynamic elastic equations of concentric equations of laser equations of motion function Fundamental Technological Research fusion energy initial Institute of Fundamental integral interactions KALISKI laser compression laser heating laser pulse lattice layer Mbar method nonhomogeneous nonlocal nuclear fusion numerical analysis obtain parameters plane plasma ball plate plazmy Polish Academy Polon precompression present paper pressure Probl Proc propagating reduced mass region self-similar Série Sci shock wave front simplified solution Streszczenie supersonic surface waves T₁ taking into consideration Techn temperature thermal and shock thermal wave front ultrasonic V₁ variable vector velocity Vibr vibrations Warszawa WŁODARCZYK απ волн волны плазмы Резюме