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821-835.76. Andreev P. A. Quantum kinetics of spinning neutral particles: Generaltheory and Spin wave dispersion // Physica A. 2015. V. 432. P. 108.77. Ivanov A. Yu., Kuz’menkov L. S. Influence of quantum energy equationon electronic plasma oscillations // Int. J. Mod. Phys. B. 2015. V. 29.
N.19. P. 15501.78. Koide T. Spin-electromagnetic hydrodynamics and magnetization inducedby spin-magnetic interaction // Phys. Rev. C. 2013. V. 87. P. 034902.79. Drofa M. A., Kuzmenkov L. S. Continual approach to multiparticlesystems with long-range interaction.
Hierarchy of macroscopic fields andphysical consequences // Theor. Math. Phys. 1996. V. 108. N. 1. P. 849859.80. Kuz’menkov L. S. Field form of dynamics and statistics of systems ofparticles with electromagnetic interaction // Theor. Math. Phys. 1991. V.86. P. 159-168.81.
Andreev P. A., Kuzmenkov L. S. Microscopic classic hydrodynamic andmethods of averaging // PIERS Proceedings, Moscow, Russia, August19-23. 2012. P. 158-162.82. Ахиезер А. И. Электродинамика плазмы. М.: Наука, 1974.13883. Krall N. A., Trivelpiece A. V. Principles of Plasma Physics. New York:McGraw-Hill Book Company, 1973.84. Gerritsma R.
et al. Quantum simulation of the Dirac equation // Nature.2010. V. 463. P. 68-71.85. Zhang D.-w., Wang Z.-d., Zhu S.-l. Relativistic quantum effects of Diracparticles simulated by ultracold atoms // Front. Phys. 2012. V. 7. Is. 1.P. 31-53.86. Xu L. J., Wu X. G. Charge-density and spin-density excitations in a twodimensional electron gas with Rashba spin-orbit coupling // Phys.
Rev.B. 2006. V. 74. P. 165315.87. Oji H. C. A., MacDonald A. H. Magnetoplasma modes of the twodimensional electron gas at nonintegral filling factors // Phys. Rev. B.1986. V. 33. P. 3810.88. Andreev P. A., Asenjo F. A., Mahajan S. M. On a consistent macroscopicdescription for a spin quantum plasma with interparticle interactions //arXiv: 1304.5780.89. Lamata L., Casanova J., Gerritsma R., Roos C. F., Garcha-Ripoll J.J., Solano E. Relativistic quantum mechanics with trapped ions // NewJournal of Physics. 2011. V. 13. P. 095003.90.
Lamata L., Leorn J., Schatz T., Solano E. Dirac Equation and QuantumRelativistic Effects in a Single Trapped Ion // Phys. Rev. Lett. 2007. V.98. P. 253005.91. Schneider C., Porras D., Schaetz T. Experimental quantum simulationsof many-body physics with trapped ions // Rep. Prog. Phys. 2012. V. 75.P. 024401.13992. Zawadzki W., Rusin T. M.
Zitterbewegung (trembling motion) ofelectrons in semiconductors: a review // J. Phys.: Condens. Matter. 2011.V. 23. P. 143201.93. Biswas T., Ghosh T. K. Zitterbewegung of electrons in quantum wells anddots in the presence of an in-plane magnetic field // J. Phys.: Condens.Matter.
2012. V. 24. P. 185304.94. Zhang Q., Gong J. B., Oh C. H. Converting Zitterbewegung oscillationto directed motion // Eur. Phys. Lett. 2011. V. 96. P. 10004.95. Witthaut D., Salger T., Kling S., Grossert C., Weitz M. Effective Diracdynamics of ultracold atoms in bichromatic optical lattices // Phys. Rev.A. 2011. V. 84. P. 033601.96. Boada O., Celi A., Latorre J. I., Lewenstein M. Dirac equation for coldatoms in artificial curved spacetimes // New J. Phys. 2011.
V. 13. P.035002.97. Thoma M. Field theoretic description of ultrarelativistic electron-positronplasmas // Rev. Mod. Phys. 2009. V. 81. P. 959.98. Bret A. Filamentation instability in a quantum plasma // Phys. Plasm.2007. V. 14. P. 084503.99. Misra A. P., Bhowmik C. Nonlinear wave modulation in a quantummagnetoplasma // Phys. Plasm. 2007. V. 14. P.
012309.100. Haas F., Garcia L. G., Goedert J., Manfredi G. Quantum ion-acousticwaves // Phys. Plasm. 2003. V. 10. P. 3858.101. Kittel C. Introduction to Solid State Physics. New York: John Wiley &Sons, 1996.140102. Benvenuto O. G., De Vito M. A. The formation of helium white dwarfsin close binary systems - II // Mon.
Not. R. Astron. Soc. 2005. V. 362.Is. 3. P. 891-905.103. Nozieres P., Pines D. Correlation Energy of a Free Electron Gas // Phys.Rev. 1958. V. 111. P. 442.104. Kanazawa H., Misawa S., Fujita K. Green Function Method for ElectronGas. II: Dispersion Relation of Plasmons // Progr. Theor. Phys. 1960. V.23. P. 426-432.105. DuBois D. F. Electron interactions: Part II. Properties of a dense electrongas // Ann. of Phys. 1959.
V. 8. P. 24-77.106. Hedin L., Lundqvist B. I. Explicit local exchange-correlation potentials //J. Phys. C: Solid St. Phys. 1971. V. 4. P. 2064.107. Datta S., Gunshor R. L. Space-charge waves in multilayeredheterostructures // J. Appl. Phys. 1983. V. 54. P. 4453.108. Krasheninnikov M. V., Chaplik A. V. Instabilities of two-dimensionalplasma waves // Sov. Phys. JETP. 1980. V. 52. P.
279.109. Fetter A. L. Electrodynamics of a layered electron gas. I. Single layer //Ann. Phys. 1973. V. 81. P. 367-393.110. Fetter A. L. Electrodynamics of a layered electron gas. II. Periodic array// Ann. Phys. 1974. V. 88. P. 1-25.111. Brusov P. N. Influence of spin-spin interaction and magnetic field in thecollective excitations in superfluid He3 // J. Soviet Math. 1983. V. 23.
N.4. P. 2389-2399.141112. Batke E., Heitmann D., Tu C. W. Plasmon and magnetoplasmonexcitation in two-dimensional electron space-charge layers on GaAs //Phys. Rev. B. 1986. V. 34. P. 6951.113. Andreev P. A. Exchange effects in Coulomb quantum plasmas: Dispersionof waves in 2D and 3D quantum plasmas // Ann. Phys. 2014.
V. 350. P.198-210.114. Andreev P. A., Kuz’menkov L. S. Many-particle quantum hydrodynamics:Basic principles and fundamental applications // arXiv:1407.7770.115. Trukhanova M. I., Andreev P. A. Exchange interaction effects on waves inmagnetized quantum plasmas // Phys. Plasmas. 2015. V. 22. P. 022128.116. Zamanian J., Marklund M., Brodin G. Exchange effects in plasmas: Thecase of low-frequency dynamics // Phys. Rev. E. 2013. V.
88. P. 063105.117. Ivanov A. Yu., Andreev P. A., Kuzmenkov L. S. Balance equations insemi-relativistic quantum hydrodynamics // Int. J. Mod. Phys. B. 2014.V. 28. P. 1450132.118. Кузьменков Л. С., Харабадзе Д. Э. Волны в системах частиц с собственным магнитным моментом (метод квантовой гидродинамики) //Известия вузов. Физика. 2004. Т. 47. N.
4. С. 92-93.119. Andreev P. A. Separated spin-up and spin-down quantum hydrodynamicsof degenerated electrons: Spin-electron acoustic wave appearance // Phys.Rev. E. 2015. V. 91. P. 033111.120. Andreev P. A., Kuz’menkov L. S. Oblique propagation of longitudinalwaves in magnetized spin-1/2 plasmas: Independent evolution of spin-upand spin-down electrons // Ann.
Phys. 2015. V. 361. P. 278.142121. Andreev P. A., Kuz’menkov L. S. Separated spin-up and spin-downevolution of degenerated electrons in two dimensional systems: Dispersionof longitudinal collective excitations in plane and nanotube geometry//arXiv:1408.3662.122. Hossain M. M., Mamun A. A., Ashrafi K. S. Cylindrical and sphericaldust ion-acoustic Gardner solitons in a quantum plasma // Phys. Plasmas.2011.
V. 18. P. 103704.123. Sahu B., Roychoudhury R. Cylindrical and spherical quantum ion acousticwaves // Phys. Plasmas. 2007. V. 14. P. 012304.124. Misra A. P., Shukla P. K., Bhowmik C. Electron-acoustic solitary wavesin dense quantum electron-ion plasmas // Phys. Plasmas. 2007. V. 14.
P.082309.125. Mushtaq A. Cylindrical dust acoustic solitary waves with transverseperturbations in quantum dusty plasmas // Phys. Plasmas. 2007. V. 14.P. 113701.126. Sabry R., El-Labany S. K., Shukla P. K. Nonlinear wave modulation ofcylindrical and spherical quantum ion-acoustic solitary waves // Phys.Plasmas. 2008. V. 15. P. 122310.127. Misra A. P., Bhowmik C.
Nonplanar ion-acoustic waves in a quantumplasma // Phys. Lett. A. 2007. V. 369. P. 90.128. Khan S. A., Mahmood S., Mirza A. M. Cylindrical and spherical dustion-acoustic solitary waves in quantum plasmas // Phys. Lett. A. 2008.V. 372. P. 148.129. Wang Y.-y., Zhang J.-f. Cylindrical dust acoustic waves in quantum dustyplasmas // Phys. Lett. A.
2008. V. 372. P. 3707.143130. Abdikian A., Bagheri M. Electrostatic waves in carbon nanotubes with anaxial magnetic field // Phys. Plasmas. 2013. V. 20. P. 102103.131. Wei L., Wang Y.-N. Quantum ion-acoustic waves in single-walled carbonnanotubes studied with a quantum hydrodynamic model // Phys. Rev.B. 2007. V. 75. P. 193407.132. Tercas H., Mendonca J. T., Shukla P. K. Quantum TrivelpieceЏGouldwaves in a magnetized dense plasma // Phys. Plasmas. 2008. V.
15. P.072109.133. Yannouleas C., Bogachek E. N., Landman U. Collective excitationsof multishell carbon microstructures: Multishell fullerenes and coaxialnanotubes // Phys. Rev. B. 1996. V. 53. P. 225.134. Fathalian A., Nikjo S. Dust acoustic wave oscillations in metallic carbonnanotubes // Solid State Communications. 2010. V. 150. P. 1062.135.
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