Диссертация (1090272), страница 33
Текст из файла (страница 33)
2007. Vol. 15, № 18. P. 11255–11261.256. Víllora E.G., Molina P., Nakamura M., Shimamura K., Hatanaka T., FunakiA., Naoe K. Faraday rotator properties of {Tb3}[Sc1.95Lu0.05](Al3)O12 , a highlytransparent terbium-garnet for visible-infrared optical isolators // Appl. Phys.Lett. 2011. Vol. 99, № 1.
P. 11111.257. Gruber J.B., Sardar D.K., Yow R.M., Valiev U. V., Mukhammadiev A.K.,Sokolov V.Y., Amin I., Lengyel K., Kachur I.S., Piryatinskaya V.G., Zandi B.Analyses of the optical and magneto-optical spectra of Tb3Ga5O12 // J. Appl.Phys. 2007. Vol. 101, № 2. P. 23108.258. Hurrell J.P., Porto S.P.S., Chang I.F., Mitra S.S., Bauman R.P.
OpticalPhonons of Yttrium Aluminum Garnet // Phys. Rev. 1968. Vol. 173, № 3.P. 851–856.259. Koningstein J.A., Kane-Maguire C.J. Electronic Raman Spectroscopy andMagnetic Susceptibilities // Can. J. Chem. 1974. Vol. 52, № 20. P. 3445–3450.260. Gavignet-Tillard A., Hammann J., De Seze L. Crystal-field splitting of thefundamental multiplet of Tb3+ in terbium aluminum garnet // J.
Phys. Chem.Solids. 1973. Vol. 34, № 2. P. 241–248.261. Mikhaylovskiy R. V., Hendry E., Ogrin F.Y., Kruglyak V. V. Lowtemperature time-domain terahertz spectroscopy of terbium gallium garnetcrystals // Phys. Rev. B - Condens. Matter Mater. Phys. 2013. Vol. 87, № 9.P. 94414.262. Löw U., Zvyagin S., Ozerov M., Schaufuss U., Kataev V., Wolf B., Lüthi B.Magnetization, magnetic susceptibility and ESR in Tb3Ga5O12 // Eur. Phys. J.B. 2013.
Vol. 86, № 3. P. 87.263. Kamazawa K., Louca D., Morinaga R., Sato T.J., Huang Q., Copley J.R.D.,QiuY. Field-inducedantiferromagnetism and206competitioninthemetamagnetic state of terbium gallium garnet // Phys. Rev. B. 2008. Vol. 78,№ 6. P. 64412.264. Ganichev S.D., Ivchenko E.L., Bel’kov V. V., Tarasenko S.A., Sollinger M.,Weiss D., Wegscheider W., Prettl W. Spin-galvanic effect // Nature.
2002. Vol.417, № 6885. P. 153–156.265. Bychkov Y.A.., Rashba E.I. Properties of a 2D electron gas with lifted spectraldegeneracy // JETP Letters. 1984. Vol. 39. P. 78–81.266. Chernyshov A., Overby M., Liu X., Furdyna J.K., Lyanda-Geller Y.,Rokhinson L.P. Evidence for reversible control of magnetization in aferromagnetic material by means of spin–orbit magnetic field // Nat. Phys.2009. Vol. 5, № 9. P. 656–659.267. Miron I.M., Garello K., Gaudin G., Zermatten P.-J., Costache M. V., AuffretS., Bandiera S., Rodmacq B., Schuhl A., Gambardella P.
Perpendicularswitching of a single ferromagnetic layer induced by in-plane current injection// Nature. 2011. Vol. 476, № 7359. P. 189–193.268. Freimuth F., Blügel S., Mokrousov Y. Spin-orbit torques in Co/Pt(111) andMn/W(001) magnetic bilayers from first principles // Phys. Rev. B. 2014.Vol. 90, № 17. P. 174423.269. Kurebayashi H., Sinova J., Fang D., Irvine A.C., Skinner T.D., Wunderlich J.,Novák V., Campion R.P., Gallagher B.L., Vehstedt E.K., Zârbo L.P., VýbornýK., Ferguson A.J., Jungwirth T.
An antidamping spin–orbit torque originatingfrom the Berry curvature // Nat. Nanotechnol. 2014. Vol. 9, № 3. P. 211–217.270. Ciccarelli C., Hals K.M.D., Irvine A., Novak V., Tserkovnyak Y., KurebayashiH., Brataas A., Ferguson A. Magnonic charge pumping via spin–orbit coupling// Nat.
Nanotechnol. 2014. Vol. 10, № 1. P. 50–54.271. Bernevig B.A., Vafek O. Piezo-magnetoelectric effects in p-dopedsemiconductors // Phys. Rev. B - Condens. Matter Mater. Phys. 2005. Vol. 72,№ 3. P. 33203.272. Manchon A., Zhang S. Theory of spin torque due to spin-orbit coupling // Phys.Rev. B. 2009. Vol. 79, № 9. P. 94422.207273. Brataas A., Kent A.D., Ohno H.
Current-induced torques in magnetic materials// Nat. Mater. 2012. Vol. 11, № 5. P. 372–381.274. Garello K., Miron I.M., Avci C.O., Freimuth F., Mokrousov Y., Blügel S.,Auffret S., Boulle O., Gaudin G., Gambardella P. Symmetry and magnitude ofspin–orbit torques in ferromagnetic heterostructures // Nat. Nanotechnol.2013. Vol. 8, № 8. P. 587–593.275. Stanciu C., Hansteen F., Kimel A., Kirilyuk A., Tsukamoto A., Itoh A., RasingT. All-Optical Magnetic Recording with Circularly Polarized Light // Phys.Rev. Lett.
2007. Vol. 99, № 4. P. 47601.276. Lambert C.-H., Mangin S., Varaprasad B.S.D.C.S., Takahashi Y.K., Hehn M.,Cinchetti M., Malinowski G., Hono K., Fainman Y., Aeschlimann M.,Fullerton E.E. All-optical control of ferromagnetic thin films andnanostructures // Science. 2014. Vol.
345, № 6202. P. 1337–1340.277. Mangin S., Gottwald M., Lambert C.-H., Steil D., Uhlíř V., Pang L., Hehn M.,Alebrand S., Cinchetti M., Malinowski G., Fainman Y., Aeschlimann M.,Fullerton E.E. Engineered materials for all-optical helicity-dependentmagnetic switching // Nat. Mater. 2014. Vol. 13, № 3. P. 286–292.278. Romming N., Hanneken C., Menzel M., Bickel J.E., Wolter B., von BergmannK., Kubetzka A., Wiesendanger R. Writing and Deleting Single MagneticSkyrmions // Science. 2013.
Vol. 341, № 6146. P. 636–639.279. Dupé B., Hoffmann M., Paillard C., Heinze S. Tailoring magnetic skyrmionsin ultra-thin transition metal films // Nat. Commun. 2014. Vol. 5. P. 1038.280. Pyatakov A.P., Zvezdin A.K. Dzyaloshinskii-Moriya–type interaction andLifshitz invariant in Rashba 2D electron gas systems // Europhysics Lett. 2014.Vol. 107, № 6. P. 67002.281. Weber W., Seidl S., Bel’kov V.V., Golub L.E., Danilov S.N., Ivchenko E.L.,Prettl W., Kvon Z.D., Cho H.-I., Lee J.-H., Ganichev S.D.
Magneto-gyrotropicphotogalvanic effects in GaN/AlGaN two-dimensional systems // Solid StateCommun. 2008. Vol. 145, № 1–2. P. 56–60.282. Malinowski G., Dalla Longa F., Rietjens J.H.H., Paluskar P. V., Huijink R.,208Swagten H.J.M., Koopmans B. Control of speed and efficiency of ultrafastdemagnetization by direct transfer of spin angular momentum // Nat. Phys.2008. Vol. 4, № 11. P. 855–858.283. Melnikov A., Razdolski I., Wehling T.O., Papaioannou E.T., Roddatis V.,Fumagalli P., Aktsipetrov O., Lichtenstein A.I., Bovensiepen U. UltrafastTransport of Laser-Excited Spin-Polarized Carriers in Au/Fe/MgO(001) //Phys.
Rev. Lett. 2011. Vol. 107, № 7. P. 76601.284. Rudolf D., La-O-Vorakiat C., Battiato M., Adam R., Shaw J.M., Turgut E.,Maldonado P., Mathias S., Grychtol P., Nembach H.T., Silva T.J.,Aeschlimann M., Kapteyn H.C., Murnane M.M., Schneider C.M., OppeneerP.M. Ultrafast magnetization enhancement in metallic multilayers driven bysuperdiffusive spin current // Nat. Commun.
2012. Vol. 3. P. 1037.285. Choi G.-M., Min B.-C., Lee K.-J., Cahill D.G. Spin current generated bythermally driven ultrafast demagnetization // Nat. Commun. 2014. Vol. 5. P.4334.286. Mosendz O., Pearson J.E., Fradin F.Y., Bauer G.E.W., Bader S.D., HoffmannA. Quantifying Spin Hall Angles from Spin Pumping: Experiments andTheory // Phys. Rev. Lett. 2010. Vol. 104, № 4. P.
46601.287. Liu L., Pai C.-F., Li Y., Tseng H.W., Ralph D.C., Buhrman R.A. Spin-TorqueSwitching with the Giant Spin Hall Effect of Tantalum // Science. 2012.Vol. 336, № 6081. P. 555–558.288. Kim J., Sinha J., Hayashi M., Yamanouchi M., Fukami S., Suzuki T., MitaniS., Ohno H. Layer thickness dependence of the current-induced effective fieldvector in Ta|CoFeB|MgO // Nat.
Mater. 2012. Vol. 12, № 3. P. 240–245.289. Rojas-Sánchez J.-C., Reyren N., Laczkowski P., Savero W., Attané J.-P.,Deranlot C., Jamet M., George J.-M., Vila L., Jaffrès H. Spin Pumping andInverse Spin Hall Effect in Platinum: The Essential Role of Spin-Memory Lossat Metallic Interfaces // Phys. Rev. Lett.
2014. Vol. 112, № 10. P. 106602.290. Schleicher J.M., Harrel S.M., Schmuttenmaer C.A. Effect of spin-polarizedelectrons on terahertz emission from photoexcited GaAs // J. Appl. Phys. 2009.209Vol. 105, № 11. P. 113116.291. Choi G.-M. Ultrafast Laser Driven Spin Generation in Metallic Ferromagnets// Dr. Diss. 2015.292. Drezet A., Genet C., Ebbesen T.W. Miniature Plasmonic Wave Plates // Phys.Rev. Lett. 2008. Vol. 101, № 4.
P. 43902.293. Biagioni P., Savoini M., Huang J.-S., Duò L., Finazzi M., Hecht B. Near-fieldpolarization shaping by a near-resonant plasmonic cross antenna // Phys. Rev.B. 2009. Vol. 80, № 15. P. 153409.210.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
