Диссертация (Гигантский магнитоимпеданс и высокочастотные нелинейные эффекты в магнитомягких проводниках), страница 42
Описание файла
Файл "Диссертация" внутри архива находится в папке "Гигантский магнитоимпеданс и высокочастотные нелинейные эффекты в магнитомягких проводниках". PDF-файл из архива "Гигантский магнитоимпеданс и высокочастотные нелинейные эффекты в магнитомягких проводниках", который расположен в категории "". Всё это находится в предмете "физико-математические науки" из Аспирантура и докторантура, которые можно найти в файловом архиве МГУ им. Ломоносова. Не смотря на прямую связь этого архива с МГУ им. Ломоносова, его также можно найти и в других разделах. , а ещё этот архив представляет собой докторскую диссертацию, поэтому ещё представлен в разделе всех диссертаций на соискание учёной степени доктора физико-математических наук.
Просмотр PDF-файла онлайн
Текст 42 страницы из PDF
290291, Part 1, p. 6873.310. M. Vázquez, K. Pirota, J. Torrejón, G. Badini, A. Torcunov. Magnetoelastic interactions inmultilayer microwires // J. Magn. Magn. Mater., 2006, v. 304, N 2, 197202.311. J. Torrejón, G. Badini, K. Pirota, M. Vázquez. Design of multilayer microwires with controllable magnetic properties: Magnetostatic and magnetoelastic coupling // Acta Mater., 2007,v.
55, N 13, p. 42714276.312. J. Escrig, S. Allende, D. Altbir, M. Bahiana, J. Torrejón, G. Badini, M. Vázquez. Magnetostatic bias in multilayer microwires: Theory and experiments // J. Appl. Phys., 2009, v. 105,N 2, p. 023907 (5 pages).313. J. Torrejón, G.A. Badini-Confalonieri, M. Vázquez. Multipeak ferromagnetic resonance behaviour tailored by magnetoelastic coupling in FeSiB/CoNi layered microwires // J. Phys. D:Appl.
Phys., 2010, v. 43, N 14, p. 145001 (5 pages).314. V. Rodionova, A. Nikoshin, J. Torrejón, G.A. Badini-Confalonieri, N. Perov, M. Vázquez.Temperature-dependent magnetic properties of magnetically biphase microwires // IEEETrans. Magn., 2011, v. 47, N 10, p. 37873790.315. E.C. Stoner, E.P. Wohlfarth. A mechanism of magnetic hysteresis in heterogeneous alloys //Phil. Trans. Roy. Soc. A, 1948, v. 240, N 826, p. 599642.255316. S. Iida, O. Ishii, S.
Kambe. Magnetic sensor using second harmonic change in magnetoimpedance effect // Jpn. J. Appl. Phys., 1998, v. 37, N 2, p. L869L871.317. G.V. Kurlyandskaya, H. Yakabchuk, E. Kisker, N.G. Bebenin, H. García-Miquel,M. Vázquez, V.O. Vas’kovskiy. Very large magnetoimpedance effect in FeCoNi ferromagnetic tubes with high order magnetic anisotropy // J. Appl.
Phys., 2001, v. 90, N 12,p. 62806286.318. E. Kisker, G.V. Kurlyandskaya, H.P. Yakabchuk, V.O. Vas’kovskiy, N.G. Bebenin. Highharmonics generation in electroplated FeNi wire showing giant magnetoimpedance // Phys.Met. Metallogr., 2001, v. 91, Suppl. 1, p. S129S132.319. G.V. Kurlyandskaya, E.
Kisker, H. Yakabchuk, N.G. Bebenin. Non-linear giant magnetoimpedance // J. Magn. Magn. Mater., 2002, v. 240, N 13, p. 206208.320. G.V. Kurlyandskaya, A. García-Arribas, J.M. Barandiarán. Advantages of nonlinear giantmagnetoimpedance for sensor applications // Sens. Actuators A, 2003, v. 106, N 13, p. 234239.321. C. Gómez-Polo, M. Vázquez, M. Knobel. Field dependence of second-harmonic amplitude ofmagnetoimpedance in FeCoSiB joule heated wires // J.
Magn. Magn. Mater., 2001,v. 226230, Part 1, p. 712714.322. C. Gómez-Polo, M. Knobel, K.R. Pirota, M. Vázquez. Giant magnetoimpedance modellingusing Fourier analysis in soft magnetic amorphous wires // Physica B, 2001, v. 299, N 34,p. 322328.323. C. Gómez-Polo, K.R. Pirota, M. Knobel. Stress dependence of second harmonic amplitude ofgiant magnetoimpedance in CoFeSiB amorphous samples // J. Magn. Magn. Mater., 2002,v. 242245, Part 1, p. 294296.324. C. Losin, C. Gómez-Polo, M.
Knobel, A. Grishin. Torsional dependence of second-harmonicamplitude of giant magnetoimpedance in FeCoSiB amorphous wire // IEEE Trans. Magn.,2002, v. 38, N 5, p. 30873089.325. J.G.S. Duque, A.E.P. de Araújo, M. Knobel, A. Yelon, P. Ciureanu. Large nonlinear magnetoimpedance in amorphous Co80.89Fe4.38Si8.69B1.52Nb4.52 fibers // Appl. Phys. Lett., 2003, v. 83,N 1, p. 99101.326. L. Clime, G. Rudkowska, J.G.S. Duque, A.E.P.
de Araújo, M. Knobel, P. Ciureanu, A. Yelon.Non-linear magetoinductance in amorphous wires // Physica B, 2004, v. 343, N 14,p. 410414.256327. J.G.S. Duque, C. Gómez-Polo, A. Yelon, P. Ciureanu, A.E.P. de Araújo, M. Knobel. The effect of helical magnetoelastic anisotropy on magnetoimpedance and its second harmoniccomponent in amorphous wires // J. Magn.
Magn. Mater., 2004, v. 271, N 23, p. 390395.328. C. Gómez-Polo, J.G.S. Duque, M. Knobel. Nonlinear giant magnetoimpedance and theasymmetric circumferential magnetization process in soft magnetic wires // J. Phys.: Condens.Matter, 2004, v. 16, N 28, p. 50835094.329. A.P. Chen, M.R. Britel, V. Zhukova, A. Zhukov, L. Domínguez, A.B. Chizhik, J.M. Blanco,J. González.
Influence of AC magnetic field amplitude on the surface magnetoimpedance tensor in amorphous wire with helical magnetic anisotropy // IEEE Trans. Magn., 2004, v. 40,N 5, p. 33683377.330. S.K. Pal, N.B. Manik, A. Mitra. Dependence of frequency and amplitude of the ac current onthe GMI properties of Co based amorphous wires // Mat. Sci. Eng. A, 2006, v. 415, N 12,p. 195201.331. S.K. Pal, N.B. Manik, A. Mitra. Dependence of the driving current on the harmonic behaviorof giant magneto-impedance voltage of Co-based amorphous wires // J. Magn. Magn.
Mater.,2006, v. 305, N 1, p. 240246.332. D. Seddaoui, D. Ménard, P. Ciureanu, A. Yelon. Second harmonic of non-linear magnetoimpedance in amorphous magnetic wires with helical anisotropy // J. Appl. Phys., 2007,v. 101, N 9, p. 093907 (6 pages).333. D. Seddaoui, D. Ménard, A. Yelon. Measurement and model of the tensile stress dependenceof the second harmonic of nonlinear GMI in amorphous wires // IEEE Trans. Magn., 2007,v. 43, N 6, p. 29862988.334. M. Butta, P.
Ripka, S. Atalay, F.E. Atalay, X.P. Li. Fluxgate effect in twisted magnetic wire //J. Magn. Magn. Mater., 2008, v. 320, N 20, p. e974e978.335. S. Atalay, N. Bayri, T. Izgi, F.E. Atalay, V.S. Kolat. Coil-less fluxgate effect in amorphouswires // Sens. Actuators A, 2010, v. 158, N 1, p. 3742.336. S. Atalay, N. Bayri, T. Izgi, V. Yagmur, F.E. Atalay, V.S. Kolat. Influence of the wire lengthon the of coil-less fluxgate properties of amorphous (Co0.94Fe0.06)72.5Si12.5B15 wire // Sens.Actuators A, 2010, v. 163, N 1, p. 122127.337.
S. Atalay, P. Ripka, N. Bayri. Coil-less fluxgate effect in (Co0.94Fe0.06)72.5Si12.5B15 amorphouswires // J. Magn. Magn. Mater., 2010, v. 322, N 15, p. 22382243.338. S. Atalay, N. Bayri, A. Fidan, F.E. Atalay, V. Yagmur. Torsion sensor based on the coil-lessfluxgate effect // Sens. Actuators A, 2012, v. 178, p. 100103.257339.
S.K. Pal, A.K. Panda, A. Mitra. Effect of annealing on the second harmonic amplitude of Giant Magneto-Impedance (GMI) voltage of a Co–Fe–Si–B amorphous wire // J. Magn. Magn.Mater., 2008, v. 320, N 34, p. 496502.340. D. Seddaoui, D. Ménard, B. Movaghar, A. Yelon. Nonlinear electromagnetic response of ferromagnetic metals: Magnetoimpedance in microwires // J. Appl. Phys., 2009, v. 105, N 8,p. 083916 (12 pages).341. A. García-Arribas, A. Saad, I. Orue, G.V. Kurlyandskaya, J.M. Barandiarán, J.A. García.Nonlinear magnetoimpedance in amorphous ribbons: Large asymmetries and angular dependence // Sens. Actuators A, 2006, v. 129, N 12, p. 275278.342.
X.L. Chai, D.C. Zeng, G.H. Liu, H.Y. Yu, X.C. Zhong, Z.W. Liu. Influence of current amplitude on the nonlinear asymmetric ac volt–ampere characteristics in amorphous ribbons withGMI effect // J. Magn. Magn. Mater., 2009, v. 321, N 9, p. 12721275.343. K. Mohri, T. Uchiyama, L.V. Panina. Recent advances of micro magnetic sensors and sensingapplication // Sens. Actuators A, 1997, v. 59, N 13, p. 18.344. D. Atkinson, P.T. Squire, M.G.
Maylin, J. Gore. An integrating magnetic sensor based on thegiant magnetoimpedance effect // Sens. Actuators A, 2000, v. 81, N 13, p. 8285.345. G.V. Kurlyandskaya, A. García-Arribas, J.M. Barandiarán, E. Kisker. Giant magnetoimpedance strip and coil sensors // Sens. Actuators A, 2001, v. 91, N 12, p.
116119.346. K. Mohri, T. Uchiyama, L.P. Shen, C.M. Cai, L.V. Panina, Y. Honkura, M. Yamamoto.Amorphous wire and CMOS IC-based sensitive micromagnetic sensors utilizing magnetoimpedance (MI) and stress-impedance (SI) effects // IEEE Trans. Magn., 2002, v. 38, N 5,p. 30633068.347. Y. Honkura. Development of amorphous wire type MI sensors for automobile use // J. Magn.Magn. Mater., 2002, v. 249, N 12, p. 375377.348. S. Yabukami, H. Mawatari, N.
Horikoshi, Y. Murayama, T. Ozawa, K. Ishiyama, K.I. Arai. Adesign of highly sensitive GMI sensor // J. Magn. Magn. Mater., 2005, v. 290291, Part 2,p. 13181321.349. I. Giouroudi, H. Hauser, L. Musiejovsky, J. Steurer. Giant magnetoimpedance sensor integrated in an oscillator system // J. Appl. Phys., 2006, v. 99, N 8, p. 08D906 (3 pages).350.
R. Valenzuela, J.J. Freijo, A. Salcedo, M. Vázquez, A. Hernando. A miniature dc current sensor based on magnetoimpedance // J. Appl. Phys., 1997, v. 81, N 8, p. 43014303.351. Y.W. Rheem, C.G. Kim, C.O. Kim, S.S. Yoon. Current sensor application of asymmetric giant magnetoimpedance in amorphous materials // Sens. Actuators A, 2003, v. 106, N 13,p. 1921.258352. L. Kraus, M. Malátek. Magnetic field sensor based on asymmetric inverse Wiedemann effect// Sensor Lett., 2007, v. 5, N 1, p. 130132.353. D.
Ménard, D. Seddaoui, L.G.C. Melo, A. Yelon, B. Dufay, S. Saez, C. Dolabdjian. Perspectives in giant magnetoimpedance magnetometry // Sensor Lett., 2009, v. 7, N 3, p. 339342.354. B. Dufay, S. Saez, C. Dolabdjian, A. Yelon, D. Ménard. Development of a high sensitivitygiant magneto-impedance magnetometer: Comparison with a commercial flux-gate // IEEETrans. Magn., 2013, v. 49, N 1, p. 8588.355. B. Dufay, S.
Saez, C. Dolabdjian, A. Yelon, D. Ménard. Impact of electronic conditioning onthe noise performance of a two-port network giant magnetoimpedance magnetometer // IEEESens. J., 2011, v. 11, N 6, p. 13171324.356. L.P. Shen, K. Mohri, T. Uchiyama, Y. Honkura. Sensitive acceleration sensor using amorphous wire SI element combined with CMOS IC multivibrator for environmental sensing //IEEE Trans. Magn., 2000, v.
36, N 5, p. 36673669.357. L.P. Shen, K. Mohri, A.L.X. Abudukelimu, H. Aoyama. Mechano-encephalogram based onamorphous wire micro SI acceleration sensor // IEEE Trans. Magn., 2001, v. 37, N 4,p. 20072009.358. M. Tejedor, B. Hernando, M.L. Sánchez, V.M. Prida, M. Vázquez. Magneto-impedance effectin amorphous ribbons for stress sensor application // Sens. Actuators A, 2001, v. 81, N 13,p. 98101.359. A.F. Cobeño, A. Zhukov, J.M. Blanco, V. Larin, J. González. Magnetoelastic sensor based onGMI of amorphous microwire // Sens. Actuators A, 2001, v. 91, N 12, p. 9598.360.