WarfareWarfareWarfareWarjfarWarfayrearfareWarfarKKeWrfareWarfaresWarfreWarfare WR arfaeWarRfaeWarfareWarfareWarfareWarfareW Psychi cPsychi cPsychicPsoychcPsychi cPsychi cPsychi RRcPychi cPsychiOcPsychcPsychi cPTsychcPsyl chcPsychicPsychi cPsychi cPsychi cP TSS/Cl ATSS/Cl ATSS/Cl ATSxS/Cl TSS/Cl ATSS/Cl ATSS/Cl xxATS/Cl ATSS/Cnl ATTS/Cl TSS/Cl AOTSS/1 ATSSP/ CATSS/ Cl ATSS/ Cl ATSS/ Cl ATSS/ Cl AT MKULTRAMKULTRAMKULTRAMKUoLTRMKUoLTAMKULTRAMKULTRxxAMULTRAMKULpTRAMKULTRAKULTRAHMKULRAMSKSULRAMKULTRAMKULTRAMKULTRAMKULTRA TreasonTrrreasonTreasonTreAasonTeasonTreasonTreaEEsoTreasonHTreasonTreasonreasIonTrasonTOresonTreasonTreasonTreasonTreasoĬonspi raConspi rConspi rConTspi rConpi rConspi rConspEEi ronspi rCoYnspi rConspi ronspi GrConpi rCoNnsi rConspi rConspi rConspi rConspi r Hi gh Hi g Hi g h Hi g Hi g h Hi g Hi g h Hi g Hi g hHi g Hi g h Hi g Hi g h Hi g Hi g hHi g Hi g h Hi g Hi g h Hi g Hi g h Hi g Hi g h Hi g Hi g h Hi g Hi ghHi g Hi g h Hi g Hi g h Hi g Hi g h Hi g h H Rev.Psychic Warfare - The Top Secret Mind Interfacing Technology Quantum Dynamics with Trajectories (Springer, Berlin, 2005)ĭ. Baym, Quantum Statistical Mechanics (Benjamin, New York, 1962) Klimontovich, Kinetic Theory of Nonideal Gases and Nonideal Plasmas (Pergamon, Oxford, 1982) Balescu, Statistical Mechanics of Charged Particles (Wiley, London, 1963)
Balzer, Nonequilibrium Green’s function approach to artificial atoms. Diploma Thesis, Kiel University (2007)Ī.V. Böning, Superfluidity in mesoscopic systems of charged bosons. \_prizes/physics/laureates/2001/ – Web page of the Nobel Foundation for the Nobel Lectures Feynman, Statistical Mechanics – A Set of Lectures (Frontiers in Physics) (Perseus, Reading, 1972) C 74, 044908 (2006)įor this discovery, Chandrasekhar was awarded the Nobel prize in 1983. LLNL, Science and Technology Review, July/August 2007 (see also ) Semkat (eds.), Introduction to Computational Methods for Many-Body Physics (Rinton, Princeton, 2006) II: Condensed Plasmas (Westview, Boulder, 2004) Ichimaru, Statistical Plasma Physics, vol. Bonitz, Quantum Kinetic Theory (Teubner, Stuttgart, 1998) Kraeft, Quantum Statistics of Nonideal Plasmas (Springer, Berlin, 2005) Röpke, Quantum Statistics of Charged Particle Systems (Akademie, Berlin, 1986)ĭ. This process is experimental and the keywords may be updated as the learning algorithm improves. These keywords were added by machine and not by the authors. The key concepts for a theoretical description of quantum plasmas are developed and illustrated by simple examples. The conditions for the relevance of quantum effects are formulated and discussed. In this chapter, an overview of quantum plasma features and their occurrence is given. In all these situations, a description in terms of classical mechanics, thermodynamics, or classical kinetic theory fails. Finally, the exotic state of the Universe immediately after the Big Bang is believed to have been a quantum plasma consisting of electrons, quarks, photons, and gluons. Furthermore, quantum plasmas exist in solids – examples are the electron gas in metals and the electron–hole plasma in semiconductors. This is the case in many astrophysical plasmas, such as those occurring in the interior of giant planets or dwarf and neutron stars, but also in various modern laboratory setups where charged particles are compressed by very intense ion or laser beams to multi-megabar pressures. However, when the temperature is lowered and/or the density is increased sufficiently, the plasma particles (most importantly, electrons) become quantum degenerate, that is, the extension of their wave functions becomes comparable to the distance between neighboring particles. Plasmas are generally associated with a hot gas of charged particles which behave classically.
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