Geodesic
Method for computing the wave function in open billiards with spin–orbit interaction
Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 52 (2012) no. 2, pp. 342-352 
G. G. Isupova; A. I. Malyshev. Method for computing the wave function in open billiards with spin–orbit interaction. Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 52 (2012) no. 2, pp. 342-352. http://geodesic.mathdoc.fr/item/ZVMMF_2012_52_2_a16/
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     title = {Method for computing the wave function in open billiards with spin{\textendash}orbit interaction},
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Voir la notice de l'article provenant de la source Math-Net.Ru

[1] Wu M.W., Jiang J.H., Weng M.Q., “Spin dynamics in semiconductors”, Phys. Rept., 493 (2010), 61–236 | DOI | MR

[2] Kusraev Yu.G., “Spinovye yavleniya v poluprovodnikakh: fizika i prilozheniya”, Uspekhi fiz. nauk, 180 (2010), 759–773 | DOI

[3] Awshalom D., Flatte M.E., “Challenges for semiconductor spintronics”, Nature Phys., 3 (2007), 153–159 | DOI

[4] Shtokman Kh.Yu., Kvantovyi khaos: Vvedenie, Fizmatlit, M., 2004

[5] Krich J.J., Halperin B.I., “Cubic dresselhaus spin-orbit coupling in 2D electron quantum dots”, Phys. Rev. Lett., 98 (2007), 226802-1–226802-4 | DOI

[6] Béri B., Bardarson J.H., Beenakker C.W.J., “Effect of spin-orbit coupling on the excitation spectrum of Andreev billiards”, Phys. Rev. B, 75 (2007), 165307-1–165307-5 | DOI

[7] Cserti J., Csordás A., Zülicke U., “Electronic and spin properties of Rashba billiards”, Phys. Rev., 70 (2004), 233307-1–233307-4 | DOI

[8] Bulgakov E.N., Sadreev A.F., “Spin rotation for ballistic electron transmission induced by spin-orbit interaction”, Phys. Rev. V, 66 (2002), 075331-1–075331-11 ; “Statistics of wave functions and currents induced by spin-orbit interaction in chaotic billiards”, Phys. Rev. E, 70 (2004), 056211-1–056211-6 | DOI | DOI

[9] Bulgakov E.N., Sadreev A.F., “Statistika sobstvennykh funktsii khaoticheskikh billiardov s uchetom spin-orbitalnogo vzaimodeistviya Rashby”, Pisma v ZhETF, 78:7 (2003), 911–914

[10] Rotter S. et al., “Modular recursive Green's function method for ballistic quantum transport”, Phys. Rev. B, 62 (2000), 1950–1960 | DOI

[11] De Mey G., “Calculation of eigenvalues of the Helmholtz equation by an integral equation”, Int. J. Numer Meth. Engng., 10 (1976), 59–66 | DOI | Zbl

[12] Riddell R.J., “Boundary-distribution solution of the Helmholtz equation for a region with corners”, J. Comput. Phys., 31 (1979), 21–41 | DOI | MR | Zbl

[13] Schwieters C.D., Alford J.A., Delos J.B., “Semiclassical scattering in a circular semiconductor microstructure”, Phys. Rev. B, 54 (1996), 10652–10657 | DOI

[14] McGrew D.A., Bauer W., “Constraint operator solution to quantum billiard problems”, Phys. Rev., 54 (1996), 5809–5818

[15] Heller E., O'Connor P., Gehlen J., “The eigenfunctions of classically chaotic systems”, Phys. Scr., 40 (1989), 354 | DOI | MR | Zbl

[16] Nakamura K., Ishio H., “Quantum transport in open billiards: comparison between circle and stadium”, J. Phys. Soc. J., 61 (1992), 3939–3944 | DOI

[17] Yang X., Ishio H., Burgdtsrfer J., “Statistics of magnetoconductance in ballistic cavities”, Phys. Rev. B, 52 (1995), 8219–8225 | DOI

[18] Ishio H., Burgdtsrfer J., “Quantum conductance fluctuation and classical short-path dynamics”, Phys. Rev. V, 51 (1995), 2013–2016 | DOI

[19] Rashba E.I., “Svoistva poluprovodnikov s petlei ekstremumov. I. Tsiklotronnyi i kombinirovannyi rezonans v magnitnom pole, perpendikulyarnom ploskosti petli”, Fiz. tverdogo tela, 2:6 (1960), 1224–1238 | Zbl

[20] Dresselhaus G., “Spin-Orbit Coupling Effects in Zinc Blende Structures”, Phys. Rev., 100 (1955), 580–586 | DOI | Zbl

[21] Ganichev S.D. et al., “Experimental Separation of Rashba and Dresselhaus Spin Splittings in Semiconductor Quantum Wells”, Phys. Rev. Letts., 92 (2004), 256601-1–256601-4 | DOI

[22] Demikhovskii V.Ya., Telezhnikov A.V., “Zitterbewegung volnovykh paketov i kondaktans kvaziodnomernogo kanala v prisutstvii spin-orbitalnogo vzaimodeistviya”, Poverkhnosti rentg., sinkhr. i neitr. issl., 2010, no. 1, 1–9

[23] Doron E., Smilansky U., Frenkel A., “Chaotic scattering and transmission fluctuations”, Physica D, 50 (1991), 367–390 | DOI | Zbl

[24] Yong S.J., Satanin A.M., Kim C.S., “Classical analogy of Fano resonances”, Phys. Scr., 74 (2006), 259–266 | DOI

[25] Kim Ch.S., Satanin A.M., Dzho Yu.S., Kosbi R.M., “Kollaps rezonansov v kvaziodnomernykh kvantovykh kanalakh”, Zh. eksperim. i teor. fiz., 116:1 (7), 263–275 | Zbl

[26] Kim Ch.S., Roznova O.N., Satanin A.M., Shtenberg V.B., “Interferentsiya kvantovykh sostoyanii v elektronnykh volnovodakh s primesyami”, Zh. eksperim. i teor. fiz., 121:5 (2002), 1157–1173