Abstract
A procedure is developed for multipole parametrizations of dipole media: electric, magnetic, polar, and axial-toroidal. The forms of interaction of all basic dipoles with uniform and/or alternating external fields are found. The proper fields or potentials for each basic dipole are given. Ways are shown of compensating (shielding) the longitudinal-transverse vector potential in limited volumes. The order in which the system of enveloping tori are electromagnetically “unpacked” is discussed.
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V. M. Dubovik, L. A. Tosunyan, and V. V. Tugushev, Zh. Eksp. Teor. Fiz., 63, No. 2, 344 (1986).
M. A. Martsenyuk and N. M. Martsenyuk, Pisma Zh. Eksp. Teor. Fiz., 53, No. 5, 229 (1991).
N. A. Tolstoi and A. A. Spartakov, Pisma Zh. Eksp. Teor. Fiz., 52, No. 3, 796 (1990).
V. M. Dubovik, S. S. Krotov, and V. V. Tugushev, Kristallografiya, 32, No. 3, 540 (1987).
V. M. Dubovik and V. V. Tugushev, Phys. Reports, 187, No. 4, 145 (1990).
V. M. Dubovik, M. A. Martsenyuk and N. M. Martsenyuk, “Multipole description of antiferromagnetic structures” [in Russian], Preprint R17- 93- 455, JINR, Dubna (1993).
Yu. F. Popov et al., Pisma Zh. Eksp. Teor. Fiz., 69, No. 4, 302 (1999).
V. M. Dubovik, M. A. Martsenyuk, and N. M. Martsenyuk, Fiz. Élement. Chast. At. Yadra (ÉChAYa), 24, No. 4, 1056 (1993).
V. M. Dubovik, M. A. Martsenyuk, and N. M. Martsenyuk, J. Mag. Mat., 145, 211 (1995).
Yu. F. Popov et al., Zh. Eksp. Teor. Fiz., 114, No. 1(7), 263 (1998).
V. M. Dubovik and S. V. Chabanov, Phys. Lett. A, 142, 211 (1989); J. Phys. A, 23, 3245 (1990).
I. S. Zhelidev, Izv. Akad. Nauk, Ser. Fiz., XXXIII, No. 2, 204 (1969).
E. N. Bukina and V. M. Dubovik, “Contributions of polarizability to the four basic polarization of electromagnetic media,” Preprint R17- 99- 276, JINR, Dubna (1999).
V. M. Dubovik and A. M. Kurbatov, “Quantum Systems: New Trends and Methods,” Minsk, May 23- 29, 1994, WS, Singapore (1995), p. 117.
V. M. Dubovik and A. A. Cheshkov, Fiz. Élement. Chast. At. Yadra (ÉChAYa), 5, No. 3, 791 (1974); also see: Preprints R2- 5283 and R2- 5284, JINR, Dubna (1970).
E. N. Bukina and V. M. Dubovik, Tur. J. Phys., 23, No. 5, 927 (1998).
V. M. Dubovik and L. A. Tosunyan, Fiz. Élement. Chast. At. Yadra (ÉChAYa), 14, No. 5, 1193 (1983)
M. A. Miller, Usp. Fiz. Nauk., 142, No. 1, 147 (1984); G. N. Afanasiev, J. Phys. A, 26, 731 (1993); V. M. Dubovik, G. N. Afanasiev, and S. Misicu, J. Phys. A, 26, No. 12, 3279 (1993).
G. N. Afanasiev, Phys. Scripta, 48, 385 (1993).
J. Q. Liang and X. X. Ding, Phys. Rev. Lett., 60, No. 9, 936 (1987).
L. I. Schiff, Proc. Nat. Acad. Sci. U. S., 25, No. 2, 391 (1939).
G. E. Modesitt, Am. J. Phys., 38, No. 12, 1487 (1970).
R. Feynman, Statistical Mechanics, Benjamin-Cummings, Menlo Park, Ca. (1972)
G. N. Afanasiev and V. M. Dubovik, Phys. Elem. Part. At. Nuclei (Particles & Nuclei), 29, No. 4, 891 (1998).
N. N. Bogoloyubov, Problems of the Dynamic Theory in Statistical Physics [in Russian], GTTI, Moscow- Leningrad (1946).
N. N. Bogoloyubov and K. P. Gurov, Zh. Eksp. Teor. Fiz., 17, No. 7, 614 (1947).
N. N. Bogoloyubov, Jr. et al., Methods of the Approximating Hamiltonian in Statistical Physics [in Russian], Sofia (1981).
G. N. Afanasiev, Fiz. Élement. Chast. At. Yadra (ÉChAYa), 21, No. 1, 172 (1990).
A. Tonomura and A. Fukuhara, Phys. Rev. Lett., 62, 113 (1989).
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Bukina, E.N., Dubovik, V.M. Higher Vector Polarizations and Quasistationary Phenomena in Enveloping Tori. Measurement Techniques 44, 934–943 (2001). https://doi.org/10.1023/A:1013211806287
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DOI: https://doi.org/10.1023/A:1013211806287