Диссертация (1098006), страница 41
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Phys. -2002.-V. 92.-No 4.-P. 2058-2063.120. M. Dominguez, J. M. Garcia-Beneytez, M. Vazquez, S. E. Lofland, and S. M. Bhagat.Microwave response of amorphous microwires: magnetoimpedance and ferromagneticresonance// J. Magn. Magn. Mater. -2002.-V. 249.-No 1.-P. 117-121.121. D.P. Belozorov, V.N. Derkach, and S.I.
Tarapov. High frequency absorption andmagnetoimpedance of amorphous microwires// Advances in Modern Radio Science, 2002, v.12, p. 48-52.122. H. Montiel, G. Alvarez, M. P. Gutiérrez, R. Zamorano, R. Valenzuela, low-fieldmicrowave absorption and magnetoimpedance in glass-coated and uncoated CoFeBSimicrowires// Sensor Letters, 2007, v.
5, No 1, p. 58-60.123. N.A. Usov, A.S. Antonov, A.N. Lagarikov. Theory of giant magneto-impedance effect inamorphous wires with different types of magnetic anisotropy// J. Magn. Magn. Mater.,1998, v.185,-No 2, p. 159-173.124. М. А. Леонтович. О приближенных граничных условиях для электромагнитногополя на поверхности хорошо проводящих тел// в кн.: “Исследования пораспространению радиоволн”, сб. 2, М. -Л., 1948.125. D. Ménard, M. Britel, P. Ciureanu, A. Yelon. Giant magnetoimpedance in a cylindricalmagnetic conductor// J.
Appl. Phys. , 1998., v. 84,- No 5, p. 2805-2814.126. А.С. Антонов, И.Т. Якубов. Магнитоимпеданс сэндвичевой структурыферромагнетик-проводник-ферромагнетик// ФММ., 1999, Т. 87, № 5, c. 29-35.127. N.A. Usov, A.S. Antonov, A.N. Lagar’kov, A.B. Granovsky. GMI spectra of amorphouswires with different types of magnetic anisotropy in the core and the shell regions// J. Magn.Magn. Mater.,1999, v. 203, No 1-3,p.
108-110.271128. A.A. Rakhmanov, A.S. Antonov, N.A. Buznikov, A.F. Prokoshin. Study of surfacemagnetic structure in Co-based amorphous microwires by means of off-diagonalmagnetoimpedance effect// J. Magn. Magn. Mater., 2006, v. 300, No 1,p. e37-e40.129. H. Garcıa-Miquel, J.M. Garcıa, J. M. Garcıa-Beneytez, and M. Vazquez. Surfacemagnetic anisotropy in glass-coated amorphous microwires as determined from ferromagneticresonance measurements// J.
Magn. Magn. Mater., 2001, v. 231, No 1, p. 38-44.130. A. N. Medina, M. Knobel, S. Salem-Sugui, and F. G. Gandra. Resonant microwave cavityresponse of amorphous ribbons// J. Appl. Phys., 1996, v. 79, No. 8, p. 5462–5464.131. H. Montiel, G. Alvarez, I. Betancourt, R. Zamorano, R. Valenzuela. Correlations betweenlow-field microwave absorption and magnetoimpedance in Co-based amorphous ribbons//Appl. Phys. Lett., 2005, v. 86, No 7, p. 072503-072505.132.
H. Garcıa-Miquel, M.J. Esbrı, J.M. Garcıa, J.M. Garcıa-Beneytez, M. Vazquez. Powerabsorption and ferromagnetic resonance in Co-rich metallic glasses// IEEE Trans. Magn.,2001., v. 37, No. 1., p. 561-564.133. A. Antonov, I. Iakubov, A. Lagarkov. Longitudinal-transverse linear transformation ofthe HF-current in soft magnetic materials with induced anisotropy// IEEE Trans. Magn., 1997,v. 33, No 5, p. 3367-3369.134. V. Popov, V. Zhukova, M. Ipatov, C. García, J. Gonzalez, V. Ponomarenko, V.Berzhansky, D. Vinogorodsky and A.
Zhukov. Studies of giant magnetoimpedance effect ofCo-rich microwires in wide frequency range//Phys. Stat. Solidi (a), 2009, v.206, No 4, p. 671673.135. P. Queffelec, P. Gelin, J. Gieraltowski, and J. Loáec. A microstrip device for the broadband simultaneous measurement of complex permeability and permittivity// IEEE Trans.Magn, 1994, v.30, No 3, p.224–230.136. D. de Cos, A. Garcı́a-Arribas, and J.
M. Barandiarán. Analysis of magnetoimpedancemeasurements at high frequency using a microstrip transmission line// Sensors and ActuatorsA, 2004, v. 115, No 2-3, p. 368-375.137. N. Jiang, K. Yamakawa, N. Honda, K. Ouchi. A new giant magneto-impedance headusing magnetic microstrip lines// IEEE Trans. Magn, 1998, v. 34, No 4, p. 1339-1341.138. K. Tan, M. Yamaguchi, K. Yamakawa. High frequency magnetic field detection byUHF carrier type thin film sensor// Digests of the IEEE International Magnetics Conference(INTERMAG Asia 2005), 2005, p.1265-1266.139. A. García-Arribas, E.
Fernández, A. Svalov, G.V. Kurlyandskaya, J.M.Barandiaran.Thin-film magneto-impedance structures with very large sensitivity// J. Magn. Magn. Mater,2016, v. 400, No 1, p. 321-326.140. D. K. Ghodgaonkar, V. V. Varadan, and V. K. Varadan. Free-space measurement ofcomplex permittivity and complex permeability of magnetic materials at microwavefrequencies// IEEE Trans. Instrum. Meas, 1990, v. 39, No 4 , p. 387–394.272141. C. Herrero-Gomez, A. M. Aragon, M. Hernando-Rydings, P.Marın, and A. Hernando.Stress and field contactless sensor based on the scattering of electromagnetic waves by a singleferromagnetic microwire//Appl. Phys. Lett, 2014, v 105, No 9, p. 092405.142.
C. Herrero-Gomez, P.Marin, and A. Hernando. Bias free magnetomechanical coupling onmagnetic microwires for sensing applications// Appl. Phys. Lett., 2013, v. 103, No 14, p.142414.143. D. Makhnovskiy, A. Zhukov, V. Zhukova, J. Gonzalez. Tunable and Self-SensingMicrowave Composite Materials Incorporating Ferromagnetic Microwires// Advances inScience and Technology, 2008, v. 54, p. 201-210.144. J.S.
Seybold. Introduction to RF Propagation// John Wiley & Sons, Inc., Hoboken, NewJersey, 2005, P. 46.145. K. Mohri, T. Uchiyama, L.P. Shen, C.M. Cai, L.V. Panina, Y. Honkura, M. Yamomoto.Amorphous wire and CMOS IC-based sensitive micromagnetic sensors utilizingmagnetoimpedance (MI) and stress-impedance (SI) effects// IEEE Trans. Magn., 2002, v. 38,No 5, p. 3063-3068.146.
S. Nakayama, K. Sawamura, K. Mohri, T. Uchiyama. Pulse-Driven MagnetoimpedanceSensor Detection of Cardiac Magnetic Activity//PLoS ONE, 2011, v. 6, No 10, p.e25834.147. P. Ripka. Magnetic sensors and magnetometers// Artech House, 2001, 477 p.148. S. Tumanski. A review of magnetic sensors// Przegl. Elektr, 2004, v.80, p. 74-80.149. J. Lenz, A.S.
Edelstein. Magnetic sensors and their applications// IEEE Sensors J., 2006,v.6, p. 631-649.150 S. Tumanski. Handbook of magnetic field measurements, Ch.4 – Magnetic sensors// CRCPress, 2011, p.1-12.151. S. S. P. Parkin, C. Kaiser, A. Panchula, P. M. Rice, B.
Hughes, M. Samant and S.H. Yang.Giant tunnelling magnetoresistance at room temperature with MgO (100) tunnel barriers //Nat.Mater, 2004, v. 3, No 12 , p. 862-867.152. C.R. Tamanaha, S.P. Mulvaney, J.C. Rife, L.J. Whitman. Magnetic labeling, detection,and system integration// Biosens. Bioelectron., 2008, v. 24, No 1, p. 1-13.153. M. Megens, M. Prins. Magnetic biochips: a new option for sensitive diagnostics// J.Magn. Magn.
Mater., 2005, v. 293, No 1, p. 702-708.154. D.L. Graham, H.A. Ferreira, P.P. Freitas. Magnetoresistive-based biosensors and biochips// Trends Biotechnol., 2004, v. 22, No 9, p. 455-462.155. T. Uchiyama, S. Nakayama, K. Mohri, and K. Bushida. Biomagnetic field detection usingvery high sensitive magneto-impedance sensors for medical applications// Phys. Stat. Solidi. A,2009, v. 206, N 4, p. 639-643.273156. K. Mohri and Y. Honkura.
Amorphous wire and CMOS IC based magneto-impedancesensors - Orign, topics, and future// Sensor Letters, 2007, v. 5, No. 2, p. 267-270.157. T. Kanno, K. Mohri, T. Yagi, T. Uchiyama, L.P. Shen. Amorphous wire MI micro sensorusing CMOS IC multivibrator// IEEE Trans. Magn., 1997, v. 33, No 5, p. 3353-3360.158. T. Uchiyama, K. Mohri, and S. Nakayama. Physiological Magnetic Stimulation forArousal of Elderly Car Driver Evaluated With Electro-Encephalogram and Spine MagneticField// IEEE Trans. Magn, 2011, v.47, No 10, p.3066-3069.159. B. Fisher, L.V. Panina, D.J.
Mapps, N. Fry. High Performance Current Sensor UtilizingGiant Magnetoimpedance (GMI) in Co-based Amorphous Wires// IEEE Trans Magn, 2013, v.49, No 1, p. 89-92.160. N.A. Yudanov, L.V. Panina, A.T. Morchenko, V.G. Kostishyn, P.A. Ryapolov. Highsensitivity magnetic sensors based on off-diagonal magnetoimpedance in amorphous FeCoSiBwires// J.
Nano- and Electronic Physics, 2013, v. 5, No 4, p. 04004-04007.161. V. Zhukova, A. Chizhik, A. Zhukov, A. Torcunov, V. Larin, J. Gonzalez. Optimization ofgiant magnetoimpedance in Co-rich amorphous microwires// IEEE Trans Magn, 2002, v. 38,No 5, p. 3090-3092.162. G.V. Kurlyandskaya, M.L. Sánchez, B. Hernando, V. M. Prida, P. Gorria and M. Tejedor.Giant-magnetoimpedance-based sensitive element as a model for biosensors//Appl. Phys. Lett,2003, v.
82, No 18, p.3053-3055.163. B. Dufay, S. Saez, C. Dolabdjian, A. Yelon, D. Menard. Development of a high sensitivitygiant magneto-impedance magnetometer: comparison with a commercial flux-gate// IEEETrans Magn , 2013, v. 49, No 1, p. 85-88.164. S. Yabukami, T. Suzuki, N. Ajiro, H.
Kikuchi, M. Yamaguchi, K.I. Arai. A highfrequency carrier-type magnetic field sensor using carrier suppressing circuit// IEEE Trans.Magn, 2001, v. 37, No 4, p. 2019-2022.165. S. Yabukami, H. Mawatari, Y. Murayama, T. Ozawa, K. Ishiyama, K.I. Arai. Highfrequency carrier type thin-film sensor using low-noise crystal oscillator// IEEE Trans. Magn,2004, v. 40, No 4, p. 2670-2672.166. S. N.
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