Диссертация (1098006), страница 40
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392, No 1-2, p. 322-328.68. K. Pirota, M. Hernandez-Velez, D. Navas, A. Zhukov, M. Vazquez. Multilayer microwires:Tailoring magnetic behaviour by sputtering and electroplating// Advanced FunctionalMaterials, 2004, v. 14, No 3, p. 266-268.69. A. S. Antonov, I .T. Iakubov. The high-frequency magneto-impedance of a sandwich withtransverse magnetic anisotropy// J. of Phys. D: Appl. Phys., 1999, v. 32, No 11, p. 1204-1211.70. A.
Gromov, V. Korenivski. Electromagnetic analysis of layered magnetic/conductorstructures// J. Phys. D: Appl. Phys., 2000, v. 33, No 7, p. 773- 779.71. V. Korenivski. GHz magnetic film inductors// J. Magn. Magn. Mater., 2000, v. 215-216,No 6, p. 800-806.72. A. Sukstanskii, V. Korenivski and A. Gromov. Impedance of a ferromagnetic sandwichstrip// J. Appl. Phys., 2001, v. 89, No 1, p. 775-786.73 G.V. Kurlyandskaya, J.L. Muñoz, J.M. Barandiaran, A. García- Arribas, A.V. Svalov, V.O.Vas´kovskiy.
Magnetoimpedance of sandwiched films: experimental results and numericalcalculations// J. Magn. Magn. Mater., 2002, v.- 242-245, p. 291-293.74. A. Paton. Analysis of the efficiency of thin-film magnetic recording heads// J. Appl. Phys.,1971, v. 42, No 13, p. 5868-5870.75. R.
W. Cross, S.E. Rassek, S.C. Sanders, M.R. Parker, J.A. Barnard and S.A. Hossain. Sizeand self-field effects in giant magnetoresistive thin-film devices// IEEE Trans. Magn., 1994, v.30, No 6, p. 3825-3827.26776. D. de Cos, V.N. Lepalovskij, G.V. Kurlyandskaya, A. García-Arribas, J.M. Barandiarán.High-frequency magnetoimpedance in multilayer thin films with longitudinal and transverseanisotropy// J.
Magn. Magn. Mater., 2008, v. 320, No 20, p. e954–e957.77. B. Li and J. Kosel. Three dimensional simulation of giant magnetoimpedance effect in thinfilm structures// J. Appl. Phys., 2011, v. 109, No 7, p. 07E519.78. G.V. Kurlyandskaya, F. Alves, B. Ahamada, R. Barrué, A.V. Svalov, V.O. Vas´kovskiy.Domain structure and magnetization process of giant magneto- impedance geometryFeNi/Cu/FeNi(Cu)FeNi/Cu/FeNi sensitive element// J.
Phys.: Cond. Matter., 2004, v. 16, p.6561-6568.79. A. V. Svalov, E. Fernandez, A. Garcia-Arribas, J. Alonso, M. L. Fdez-Gubieda, and G. V.Kurlyandskaya. FeNi-based magnetoimpedance multilayers: Tailoring of the softness bymagnetic spacers// Appl. Phys. Lett., 2012, v. 100, No 16, p. 162410.80. D.S. Gardner, G. Schrom, F. Paillet, B. Jamieson, T. Karnik, S. Borkar. Review of On-ChipInductor Structures With Magnetic Films// IEEE Trans. Magn., 2009, v. 45, No 10, p.
47604766.81. K. Agra, T. J. A. Mori, L. S. Dorneles, V. M. Escobar, U. C. Silva, C. Chesman, E.Bohn,M. A. Correa. Dynamic magnetic behavior in nonmagnetostrictive multilayered filmsgrown on glass and flexible substrates// J. Magn. Magn. Mater., 2014, v. 355, No 4, p. 136141.82. E. Fernandez, G. V.
Kurlyandskaya, A. Garcia-Arribas, A. V. Svalov. Nanostructured giantmagneto-impedance multilayers deposited onto flexible substrates for low pressure sensing//Nanoscale Res. Lett., 2012, v. 7, p. 230.83. B. Li, M. N. Kavaldzhiev, J. Kosel. Flexible Magnetoimpedance Sensor// J. Magn. Magn.Mater., 2014, v. 378, No 3, p. 499-505.84. G.V. Kurlyandskaya , A.A. Chlenova, E. Fernández, K.J. Lodewijk. FeNi-based flatmagnetoimpedance nanostructures with open magnetic flux: New topological approaches// J.Magn.Magn.
Mater., 2015, v. 383, p. 220-225.85. L. Kraus. GMI modeling and material optimization// Sens. Actuators A, 2003, v. 106, No1-3, p. 187-194.86. T. Kitoh, K. Mohri, T. Uchiyama. Asymmetrical magneto-impedance effect in twistedamorphous wires for sensitive magnetic sensors// IEEE Trans. Magn., 1995, v. 31, No 6, p.3137- 3139.87. K. Kawashima, I. Ogasawara, S.
Ueno, K. Mohri. Asymmetrical magneto-impedance effectin torsion-annealed Co-rich amorphous wire for MI micro magnetic sensor// IEEE Trans.Magn., 1999, v. 35, No 5, p. 3610-3612.88. T.A. Furmanova, A.S. Antonov, I.N. Morozov, L.V. Panina. Effect of dc current onmagnetoimpedance in CoSiB twisted wires// Sens. Actuators A, 2000, v. 81, No 1-3, p.
95-97.26889. F.L.A. Machado, A.R. Rodrigues, A.A. Puça, A.E.P. de Araujo. Highly asymmetric giantmagnetoimpedance// Mater. Sci. Forum., 1999, v. 302-303, p. 202-208.90. S.H. Song, K.S. Kim, S.C. Yu, C.G. Kim, M. Vázquez. Asymmetric GMI characteristics incurrent-biased amorphous (Co0.94Fe0.06)72.5Si12.5B15 wire// J. Magn. Magn.
Mater., 2000,v. 215-216, p. 532-534.91. S.H. Song, S.C. Yu, C.G. Kim, H.C. Kim, W.Y. Lim. Asymmetric giantmagnetoimpedance in annealed amorphous (Co0.94Fe0.06)72.5Si12.5B15 wire under thecircumferential field// J. Appl. Phys., 2000, v.- 87, No 9, p. 5266-5268.92. K.S. Byon, S.C. Yu, C.G. Kim, S.S. Yoon. Asymmetric characteristics ofmagnetoimpedance in amorphous Fe77.5Si7.5B15 wire// J. Magn. Magn. Mater., 2001, v.
226230, Part 1, p. 718-720.93. M.-H. Phan, S.C. Yu, C.G. Kim, M. Vázquez. Origin of asymmetrical magnetoimpedancein a Co-based amorphous microwire due to dc bias current// Appl. Phys. Lett., 2003, v. 83, No14, p. 2871-2873.94. K. Mandal, S. Puerta, M. Vázquez, A. Hernando. Giant magnetoimpedance in amorphousCo83.2Mn7.6Si5.8B3.3 microwires// Phys. Rev. B, 2000, v. 62, No 10, p. 6598-6602.95. M. Ipatov, V.
Zhukova, J. González, A. Zhukov. Manipulating the magnetoimpedance bydc bias current in amorphous microwire// J. Magn. Magn. Mater., 2012, v. 324, No 23, p. 40784083.96. K.S. Byon, S.C. Yu, C.G. Kim, M. Vázquez. Bias current effect on giantmagnetoimpedance in Co-based amorphous microwire// J. Non-Cryst. Sol., 2001, v. 287, No 13, p. 339-343.97. A.P. Chen, V. Zhukova, A. Zhukov, L. Domínguez, A. Chizhik, J.M. Blanco, J.
González.Influence of an ac magnetic field and induced magnetic anisotropy on the surfacemagnetoimpedance tensor in an amorphous wire// J. Phys. D: Appl. Phys., 2004, v. 37, No 20,p. 2773-2779.98. A.P. Chen, C. García, A. Zhukov, L. Domínguez, J.M. Blanco, J. González. Influence ofthe ac magnetic field frequency on the magnetoimpedance of amorphous wire// J. Phys. D:Appl.
Phys., 2006, v. 39, No 9, p. 1718-1723.99. M. Ipatov, V. Zhukova, A. Zhukov, J. González, A. Zvezdin. Low-field hysteresis in themagnetoimpedance of amorphous microwires// Phys. Rev. B, 2010, v. 81, No 13, p. 134421134428.100. C.G. Kim, K.J. Jang, H.C. Kim, S.S. Yoon. Asymmetric giant magnetoimpedance in fieldannealed Co-based amorphous ribbon// J. Appl. Phys., 1999, v.
85, No 8, p. 5447-5449.101. K.J. Jang, C.G. Kim, S.S. Yoon, K.H. Shin. Annealing effect on microstructure andasymmetric giant magneto-impedance in Co-based amorphous ribbon// IEEE Trans. Magn.,1999, v. 35, No 5, p. 3889-3891.269102. L. Kraus. Exchange biased GMI valve// Abstracts of International Conf. on Magnetism,Roma, Italy, 2003, p. 712.103. J.G.S. Duque, A.E.P. de Araújo, M. Knobel.
Asymmetric impedance in field-annealedCobased amorphous wires and its bias field dependence// J. Magn. Magn. Mater., 2006, v. 299,No 2, p. 419-424.104. Y.F. Li, M. Vazquez, D.X. Chen. Giant magnetoimpedance effect and magnetoelasticproperties in stress-annealed FeCuNbSiB nanocrystalline wire// IEEE Trans. Magn., 2002, v.38, No 5, p.
3096 – 3098.105. K. Pirota, M. Hernández-Vélez, D. Navas, A. Zhukov, M. Vázquez. Multilayermicrowires: Tailoring magnetic behavior by sputtering and electroplating// Adv. Funct. Mater.,2004, v. 14, No 3, p. 266-268.106. K. Pirota, M. Provencio, K. García, P.
Mendoza, M. Hernández-Vélez, M. Vázquez.Bimagnetic microwires: a novel family of materials with controlled magnetic behavior// J.Magn. Magn. Mater., 2005, v. 290-291, Part 1, p. 68-73.107. 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, No 2, p. 023907-0239011.108. R.L. Sommer, C.L. Chien. Longitudinal and transverse magneto-impedance in amorphousFe73.5Cu1Nb3Si13.5B9 films// Appl.
Phys. Lett., 1995, v. 67, No 22, p. 3346-3348.109. L. Garciá, R. Valenzuela. Domain wall pinning, bulging, and displacement incircumferential domains in CoFeBSi amorphous wires// J. Appl. Phys., 2000, v. 87, No 9, p.5257-5259.110. C.G. Kim, S.S. Yoon, S.C. Yu. Decomposition of susceptibility spectra in a torsionstressed Fe-based amorphous wire// Appl. Phys. Lett., 2000, v. 76, No 23, p. 3463-3465.111. S.S. Yoon, C.G. Kim. Separation of reversible domain wall motion and magnetizationrotation components in susceptibility spectra of amorphous magnetic materials// Appl. Phys.Lett., 2001, v. 78, No 21, p.
3280-3282.112. F.L.A. Machado, S.M. Rezende. A theoretical model for the giant magnetoimpedance inribbons of amorphous soft ferromagnetic alloys// J. Appl. Phys., 1996, v. 79, No 8, p. 65586560.113. D. Atkinson, P.T. Squire. Experimental and phenomenological investigation of the effectof stress on magneto-impedance in amorphous alloys// IEEE Trans. Magn., 1997, v.
33, No 5,p. 3364-3366.114. D.-X. Chen, J.L. Muñoz, A. Hernando, M. Vázquez. Magnetoimpedance of metallicferromagnetic wires// Phys. Rev. B, 1998., v. 57, No 17, p. 10699-10704.270115. A. Yelon, D. Ménard, M. Britel, P. Ciureanu. Calculations of giant magnetoimpedanceand of ferromagnetic resonance response are rigorously equivalent// Appl. Phys. Lett., 1996, v.69, No 20, p. 3084-3085.116. D.
Menard, M. Britel, P. Ciureanu, A. Yelon, V. P. Paramonov, A. S. Antonov, P.Rudkowski, and J. O. Strem-Olsen. High frequency impedance spectra of soft amorphousfibers// J. Appl. Phys.-1997.-V. 81.-No 8.-P. 4032-4034 .117. M. R. Britel, D. Menard, L. G. Melo, P. Ciureanu, A. Yelon, R. W. Cochrane, M.Rouabhi, B. Cornut. Magnetoimpedance measurements of ferromagnetic resonance andantiresonance// Appl. Phys. Lett. -2000.-V. 77.-No 17.-P. 2737-2739.118.
S.E. Lofland, S.M. Baghat, M. Domı́nguez, J.M. Garcıa-Beneytez, F. Guerrero and M.Vázquez. Low field microwave magnetoimpedance in amorphous microwires// J. Appl. Phys.-1999.-V. 85.-No 8.-P. 4442-4444.119.S.E. Lofland, H. Garcıa-Miquel, M. Vazquez, S.M. Baghat. Microwavemagnetoabsorption in glass-coated amorphous microwires with radii close to skin depth// J.Appl.
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