Диссертация (1149509), страница 18
Текст из файла (страница 18)
Note. Observation of an itinerantmetamagnetic transition in MnSi under high pressure // Phys. Rev. B 62, 986 (2000).22.A. Bauer, A. Neubauer, C. Franz, W. Münzer, M. Garst and C. Pfleiderer. Quantumphase transitions in single-crystal Mn1-xFexSi and Mn1-xCoxSi: Crystal growth,magnetization, ac susceptibility, and specific heat // Phys. Rev. B 82, 064404 (2010).23.A. Tsvyashchenko.
High pressure synthesis of RE6Cu23 compounds (RE = Tb, Dy, Yb,Lu) // Journal of the Less Common Metals 99, 2, L9 (1984).11724.N. Kanazawa, Y. Onose, T. Arima, D. Okuyama, K. Ohoyama, S. Wakimoto, K. Kakurai,S. Ishiwata, and Y. Tokura. Large Topological Hall Effect in a Short-Period HelimagnetMnGe //Phys. Rev.
Lett. 106, 156603 (2011).25.O. L. Makarova, A. V. Tsvyashchenko, G. Andre, F. Porcher, L. N. Fomicheva, N. Rey,and I. Mirebeau. Neutron diffraction study of the chiral magnet MnGe // Phys. Rev. B 85,205205 (2012).26.Lebech B., Bernhard J., Freltoft T. Magnetic structures of cubic FeGe studied bysmall-angle neutron scattering // Journal of Physics: Condensed Matter. 1989. Vol.
1, no.35. Pp. 6105—6122.27.T. Koretsune, N. Nagaosa and R. Arita. Control of Dzyaloshinskii-Moriya interaction inMn1−xFexGe: a first-principles study. // Sci. Rep. 5, 13302 (2015).28.J. Gayles, F. Freimuth, T. Schena, G. Lani, P. Mavropoulos, R. Duine, S. Blugel, J.Sinova and Y. Mokrousov. Dzyaloshinskii-Moriya Interaction and Hall Effects in theSkyrmion Phase of Mn1−xFexGe // Phys.
Rev. Lett. 115, 036602 (2015).29.Toru Kikuchi, Takashi Koretsune, Ryotaro Arita, and Gen Tatara. Dzyaloshinskii-MoriyaInteraction as a Consequence of a Doppler Shift due to Spin-Orbit-Induced Intrinsic SpinCurrent // Phys. Rev. Lett. 116, 247201 (2016).30.E. Altynbaev, S.-A. Siegfried, E. Moskvin, D. Menzel, C. Dewhurst, A. Heinemann, A.Feoktystov, L. Fomicheva, A. Tsvyashchenko, and S. Grigoriev. Hidden quantum phasetransition in Mn1−xFexGe evidenced by small-angle neutron scattering.
// Phys. Rev. B 94,174403 (2016).31.G. A. Valkovskiy, E. V. Altynbaev, M. D. Kuchugura, E. G. Yashina, A. S. Sukhanov, V.A. Dyadkin, A. V. Tsvyashchenko, V. A. Sidorov, L. N. Fomicheva, E. Bykova, S. V.Ovsyannikov, D. Yu. Chernyshov, and S. V. Grigoriev. Thermal Expansion ofMonogermanides of 3d-Metals // J. Phys.: Condens.
Matter 28, 375401 (2016).32.E. Altynbaev, S.-A. Siegfried, V. Dyadkin, E. Moskvin, D. Menzel, A. Heinemann, C.Dewhurst, L. Fomicheva, A. Tsvyashchenko, and S. Grigoriev. Intrinsic instability of thehelix spin structure in MnGe and order-disorder phase transition.
// Physical ReviewB vol. 90 pp. 174420 (2014).33.Алтынбаев Е.В., Суханов А.С., Siegfried S.A., Дядькин В.А., Москвин Е.В., MenzelD., Heinemann A., Фомичева Л.Н., Цвященко А.В., Григорьев С.В. Влияниедопирования на температурную эволюцию геликоидальной спиновой структуры вMnGe//Поверхность.Рентгеновские,исследования, vol. 10, N. 8, pp. 5-11 (2016).118синхротронныеинейтронные34.С. В. Григорьев,Е. В. Алтынбаев,Х. Эккерлебе,А.
И. Окороков,Изучениеспиновой динамики в ферромагнетике Fe65Ni35 методом малоуглового рассеянияполяризованных нейтронов. // Поверхность. Рентгеновские, синхротронные инейтронные исследования, vol. 1, N. 10, pp. 71-78 (2014).35.Boren B. Rontgenuntersuchung der Legierungen von Silicium mit Chrom, Mangan,Kobalt und Nickel // Arkiv for kemi, mineralogi och geologi. Vol. 11. Pp. 1—6 (1933).36.Ishikawa Y., Shirane G., Tarvin J. A., Kohgi M. Magnetic excitations in the weakitinerant ferromagnet MnSi // Phys. Rev.
B, Vol. 16, no. 11. Pp. 4956—4970 (1977).37.Vocadlo L, Price G D and Wood I G. Crystal structure, compressibility and possiblephase transitions in ε-FeSi studied by first-principles pseudopotential calculations // ActaCrystallogr. B 55, 484 (1999).38.Dmitrienko V E.
Quasicrystals and their approximants: dodecahedral local orderingversus canonical-cell description // Acta Crystallogr. A 50, 515 (1994).39.Van der Marel D, Damascelli A, Schulte K and Menovsky A. Spin, charge, and bondingin transition metal mono-silicides // Physica B 244, 138 (1998).40.Wilhelm H, Schmidt M, Cardoso-Gil R, Burkhardt U, Hanfland M, Schwarz U andAkselrud L. Structural investigations of ε-FeGe at high pressure and low temperature //Sci.
Technol. Adv. Mater. 8, 416 (2007).41.S. M. Stishov, A. E. Petrova, S. Khasanov, G. K. Panova, A. A. Shikov, J. C. Lashley,D. Wu, and T. A. Lograsso, Magnetic phase transition in the itinerant helimagnet MnSi:Thermodynamic and transport properties // Phys. Rev. B 76, 052405 (2007).42.Nagaosa N and Tokura Y. Topological properties and dynamics of magnetic skyrmions //Nat. Nanotechol.
8, 899 (2013).43.Kanazawa N, Shibata K and Tokura Y. Variation of spin–orbit coupling and relatedproperties in skyrmionic system Mn1-xFexGe // New J. Phys. 18, 045006 (2016).44.Tanigaki T, Shibata K, Kanazawa N, Yu X Z, Onose Y, Park H S, Shindo D andTokura Y. Real-Space Observation of Short-Period Cubic Lattice of Skyrmions in MnGe// Nano Lett.
15 5438 (2015).45.Pfleiderer C and Rosch A. Condensed-matter physics: Single skyrmions spotted // Nature465, 880 (2010).46.E. Moskvin, S. Grigoriev, V. Dyadkin, H. Eckerlebe, M. Baenitz, M. Schmidt, andH. Wilhelm, Complex Chiral Modulations in FeGe Close to Magnetic Ordering // Phys.Rev. Lett.
110, 077207, (2013).47.S. V. Grigoriev, D. Chernyshov, V. A. Dyadkin, V. Dmitriev, E. V. Moskvin, D.Lamago, Th. Wolf, D. Menzel, J. Schoenes, S. V. Maleyev, and H. Eckerlebe. Interplay119between crystalline chirality and magnetic structure in Mn1-xFexSi // Phys. Rev. B 81,012408 (2010).48.Fawcett E, Maita J P and Wernick J H. Magnetoelastic and thermal properties of MnSi //Int. J.
Magn. 1, 29 (1970).49.Matsunaga M, Ishikawa Y and Nakajima T. Magneto-Volume Effect in the WeakItinerant Ferromagnet MnSi // J. Phys. Soc. Japan 51, 1153 (1982).50.S. M. Stishov, A. E. Petrova, S. Khasanov, G. K. Panova, A. A. Shikov, J. C. Lashley,D. Wu, and T. A. Lograsso, Heat capacity and thermal expansion of the itineranthelimagnet MnSi // J.
Phys. Condens. Matter 20, 235222 (2008).51.Sergei M. Stishov, Alla E. Petrova, Anatoly A. Shikov, Thomas A. Lograsso, Eyvaz I.Isaev, Börje Johansson, and Luke L. Daemen. Lost Heat Capacity and Entropy in theHelical Magnet MnSi // Phys. Rev. Lett. 105, 236403 (2010).52.Ishikawa Y., Tajima K., Bloch D., Roth M. Helical spin structure in manganese silicideMnSi // Solid State Communications. 1976. Vol. 19, no. 6. Pp. 525—528.53.K.
Koyama, T. Goto, T. Kanomata, and R. Note. Observation of an itinerantmetamagnetic transition in MnSi under high pressure // Phys. Rev. B 62, 986 (2000).54.Ishikawa Y., Arai M., Magnetic Phase Diagram of MnSi near Critical TemperatureStudied by Neutron Small Angle Scattering // Journal of the Physical Society of Japan.1984. Vol. 53, no. 8. Pp. 2726—2733.55.Gregory C., Lambrick D., Bernhoeft N., Magnetisation study of the magnetic phasediagram in MnSi // Journal of Magnetism and Magnetic Materials. 1992. Vol.
104—107,no. Part 1. Pp. 689—690.56.Koyama K., Goto T., Kanomata T., Note R. Observation of an itinerant metamagnetictransition in MnSi under high pressure // Physical Review B. 2000. Vol. 62, no. 2. Pp.986—991.57.Date M., Okuda K., Kadowaki K. Electron Spin Resonance in the Itinerant-ElectronHelical Magnet MnSi // Journal of the Physical Society of Japan. 1977. Vol. 42, no. 5. Pp.1555—1561.58.Manyala N., Sidis Y., DiTusa J.
F. et al. Magnetoresistance from quantum interferenceeffects in ferromagnets // Nature. 2000. Vol. 404, no. 6778. Pp. 581—584.59.Kusaka S., Yamamoto K., Komatsubara T., Ishikawa Y. Ultrasonic study of magneticphase diagram of MnSi // Solid State Communications. 1976. Vol. 20, no. 9. Pp. 925—927.60.Kawakami M., Hihara T. Nuclear Magnetic Resonance Study of MnSi // Journal of thePhysical Society of Japan.
1968. Vol. 25, no. 6. Pp. 1733—1733.12061.Motoya K., Yasuoka H., Nakamura Y. et al. 55Mn and 29Si NMR in the HelicallyOrdered State of MnSi // Journal of the Physical Society of Japan. 1978. Vol. 44, no. 3.Pp. 833—841.62.Yasuoka H., Jaccarino V., Sherwood R. C., Wernick J. H. NMR and SusceptibilityStudies of MnSi above Tc // Journal of the Physical Society of Japan. 1978. Vol. 44, no.3. Pp. 842—849.63.Plumer M. L.
Wavevector and spin-flop transitions in cubic FeGe // Journal of Physics:Condensed Matter. 1990. Vol. 2, no. 36. Pp. 7503—7510.64.Plumer M. L., Walker M. B., Wavevector and spin reorientation in MnSi // Journal ofPhysics C: Solid State Physics. 1981. Vol. 14, no. 31. Pp. 4689—4699.65.Walker M. B. Phason instabilities and successive wave-vector reorientation phasetransitions in MnSi // Phys. Rev. B. 1989._Nov. Vol. 40, no. 13.
Pp. 9315—9317.66.X. Z. Yu, Y. Onose, N. Kanazawa, J. H. Park, J. H. Han, Y. Matsui, N. Nagaosa, Y.Tokura. Real-space observation of a two-dimensional skyrmion crystal // Nature 465,901–904 (2010).67.X. Z. Yu, N. Kanazawa, Y. Onose, K. Kimoto, W. Z. Zhang, S. Ishiwata, Y. Matsui, Y.Tokura. Near room-temperature formation of a skyrmion crystal in thin-films of thehelimagnet FeGe // Nature Materials 10, 106–109 (2011).68.A. Tonomura, X. Yu, K. Yanagisawa, T. Matsuda, Y.
Onose, N. Kanazawa, H. S. Park,and Y. Tokura. Real-space observation of skyrmion lattice in helimagnet MnSi thinsamples // Nano Lett. 12, 1673-1677 (2012).69.F. N. Rybakov, A. B. Borisov, A. N. Bogdanov. Three-dimensional skyrmion states inthin films of cubic helimagnets // Physical Review B 87, 094424 (2013).70.M. N. Wilson, A. B.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
