Диссертация (1104133), страница 21
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Vol. 109, № 7. P. 07C717.63. Baranov N.V. et al. Giant magnetoresistance in antiferromagnetically ordered FeRh andMn2Sb based alloys // J. Magn. Magn. Mater. 1996. Vol. 157–158. P. 401–402.64. Moruzzi V.L., Marcus P.M. Giant magnetoresistance in FeRh: A natural magnetic multilayer// Phys. Rev. B.
1992. Vol. 46, № 21. P. 14198–14200.65. KoenigC.Self-consistentbandstructureofparamagnetic,ferromagneticandantiferromagnetic ordered FeRh // J. Phys. F Met. Phys. 1982. Vol. 12, № 6. P. 1123.66. Moruzzi V.L., Marcus P.M. Antiferromagnetic-ferromagnetic transition in FeRh // Phys. Rev.B. 1992. Vol. 46, № 5. P. 2864–2873.67. Gu R.Y., Antropov V.P.
Dominance of the spin-wave contribution to the magnetic phasetransition in FeRh // Phys. Rev. B. 2005. Vol. 72, № 1. P. 012403.68. Sandratskii L.M., Mavropoulos P. Magnetic excitations and femtomagnetism of FeRh: Afirst-principles study // Phys. Rev. B. 2011. Vol. 83, № 17. P. 174408.11869. Staunton J.B. et al. Fluctuating local moments, itinerant electrons, and the magnetocaloriceffect: Compositional hypersensitivity of FeRh // Phys.
Rev. B. 2014. Vol. 89, № 5. P.054427.70. Turek I. et al. Theory of Electron Transport in FeRh-Based Natural Magnetic Multilayers //Czechoslov. J. Phys. 2002. Vol. 52, № 2. P. 203–208.71. Turek I. et al. Ab initio theory of transport in FeRh-based natural magnetic multilayers // J.Magn. Magn. Mater. 2002. Vol. 240, № 1–3.
P. 162–164.72. Moruzzi V.L., Marcus P.M. Structural effects on the magnetic properties of FePd and FeRh //Phys. Rev. B. 1993. Vol. 48, № 21. P. 16106–16108.73. Gray A.X. et al. Electronic Structure Changes across the Metamagnetic Transition in FeRhvia Hard X-Ray Photoemission // Phys. Rev. Lett. 2012. Vol.
108, № 25. P. 257208.74. Barua R., Jiménez-Villacorta F., Lewis L.H. Predicting magnetostructural trends in FeRhbased ternary systems // Appl. Phys. Lett. 2013. Vol. 103, № 10. P. 102407.75. Baranov N.V., Barabanova E.A. Electrical resistivity and magnetic phase transitions inmodified FeRh compounds // J. Alloys Compd. 1995. Vol. 219, № 1–2. P. 139–148.76. Tu P. et al.
Mechanism for the First‐Order Magnetic Transition in the FeRh System // J. Appl.Phys. 1969. Vol. 40, № 3. P. 1368–1369.77. Lu W., Nam N.T., Suzuki T. First-order magnetic phase transition in FeRh–Pt thin films // J.Appl. Phys. 2009. Vol. 105, № 7. P. 07A904.78. Annaorazov M.P. et al. Anomalously high entropy change in FeRh alloy // J. Appl. Phys.1996.
Vol. 79, № 3. P. 1689–1695.79. Heeger A.J. Pressure Dependence of the FeRh First‐Order Phase Transition // J. Appl. Phys.1970. Vol. 41, № 11. P. 4751–4752.80. Khan M.A., Koenig C., Riedinger R. Interband dielectric constants in antiferromagnetic,ferromagnetic and paramagnetic phases of FeRh // J. Phys. F Met. Phys. 1983. Vol. 13, № 8.P. L159.81. Kulikov N.I. et al. Electronic band structure and magnetic order in FeRh // J.
Phys. F Met.Phys. 1982. Vol. 12, № 6. P. L91.82. Dean R.H., Jakins G.A. Hyperfine field distribution in FeMo, FeRh and FeIr // J. Phys. F Met.Phys. 1978. Vol. 8, № 7. P. 1563.83. Stamm C. et al. Antiferromagnetic-ferromagnetic phase transition in FeRh probed by x-raymagnetic circular dichroism // Phys. Rev. B. 2008.
Vol. 77, № 18. P. 184401.84. Sandratskii L.M., Buczek P. Lifetimes and chirality of spin waves in antiferromagnetic andferromagnetic FeRh from the perspective of time-dependent density functional theory // Phys.Rev. B. 2012. Vol. 85, № 2. P. 020406.11985. Hernando A. et al. Density of States and Indirect Exchange in Metallic Systems // Acta. Phys.Pol. A. 1997. Vol. 90, № 6. P. 1227.86. Nakada K., Yamada H. Fermi surface and antiferromagnetism of FeRh // J. Magn.
Magn.Mater. 2007. Vol. 310, № 2, Part 2. P. 1046–1047.87. Ohnishi H., Katoh K., Motizuki K. Magnetic phase diagram of system with two differentatoms in unit cell // J. Magn. Magn. Mater. 1983. Vol. 31–34, Part 1. P. 55–56.88. Szajek A., Morkowski J.A. Phase diagram of the metamagnetic FeRh // J. Magn. Magn.Mater. 1992. Vol. 115, № 2–3. P.
171–173.89. Moruzzi V.L., Marcus P.M. Magnetic structure in FeRh from constrained total-energycalculations // Solid State Commun. 1992. Vol. 83, № 9. P. 735–738.90. Yamada H. et al. Structure and magnetism of 3d and 4d transition-metal alloys TT′ (T = Mn,Fe and T′ = Rh, Pd) with CuAu-I type ordered structure // J. Alloys Compd. 2006. Vol. 415,№ 1–2.
P. 31–37.91. Schinkel C.J., Hartog R., Hochstenbach F.H.A.M. On the magnetic and electrical propertiesof nearly equiatomic ordered FeRh alloys // J. Phys. F Met. Phys. 1974. Vol. 4, № 9. P. 1412.92. Alouani M., Khan M.A. X-ray emission and absorption in intermetallic compounds: FeAl andFeRh // J. Phys. F Met. Phys. 1987. Vol.
17, № 2. P. 519.93. Jezierski A., Borstel G. Electronic and magnetic properties of FeRh TM alloys // J. Magn.Magn. Mater. 1995. Vol. 140–144, Part 1. P. 81–82.94. Khwaja Y., Nauciel-Bloch M. Off-stoichiometry effects in the antiferromagnetic ferh alloy //Phys. Status Solidi B. 1977. Vol. 83, № 2. P. 413–424.95. Khwaja Y., Nauciel-Bloch M. The effect of a substitutional Fe impurity on the magneticproperties of the antiferromagnetic FeRh alloy // Solid State Commun. 1977. Vol. 21, № 6. P.529–532.96. Lommel J.M. Magnetic and Electrical Properties of FeRh Thin Films // J.
Appl. Phys. 1966.Vol. 37, № 3. P. 1483–1484.97. Hashi S. et al. A large thermal elasticity of the ordered FeRh alloy film with sharp magnetictransition // IEEE Trans. Magn. 2004. Vol. 40, № 4. P. 2784–2786.98. Cao J. et al. Magnetization behaviors for FeRh single crystal thin films // J. Appl. Phys. 2008.Vol. 103, № 7. P. 07F501.99. Heidarian A. et al. Tuning the antiferromagnetic to ferromagnetic phase transition in FeRhthin films by means of low-energy/low fluence ion irradiation // Nucl.
Instrum. Methods Phys.Res. Sect. B Beam Interact. Mater. At. 2015. Vol. 358. P. 251–254.100.Rosenberg M. et al. A Mössbauer spectroscopy and magnetic study of FeRh // J. Magn.Magn. Mater. 1998. Vol. 177–181, Part 1. P. 135–136.120101.Hernando A. et al. Boundary spin disorder in nanocrystalline FeRh alloys // Phys. Rev. B.1998.
Vol. 58, № 9. P. 5181–5184.102.Hernando A. et al. On the Antiferromagnetism of Fe-Rh // Mater. Sci. Forum. 1997. Vol.235–238. P. 675–684.103.Hernando A. et al. Magnetic properties of disordered grain boundaries in nanocrystallineFeRh alloys // J. Magn. Magn. Mater. 1999. Vol. 203, № 1–3.
P. 223–225.104.Hernando A., Navarro E. Nanocrystalline Ball Milled fcc-FeRh Alloys // Mater. Sci. Forum.2000. Vol. 343–346. P. 787–792.105.Kuncser V. et al. Magnetic interactions in nanocrystalline FeRh alloys studied by in fieldMössbauer spectroscopy // J. Alloys Compd. 2000.
Vol. 308, № 1–2. P. 21–29.106.Navarro E. et al. Low Temperature Magnetic Properties of FCC FeRh Obtained by BallMilling // Mater. Sci. Forum. 1998. Vol. 269–272. P. 133–138.107.Hernando A. et al. Grain-Boundary Structure in Nanocrystalline Ball-Milled FeRh // J.Metastable Nanocrystalline Mater. 1999. Vol. 1.
P. 191–196.108.Paduani C. Magnetic properties of Fe–Rh alloys // J. Appl. Phys. 2001. Vol. 90, № 12. P.6251–6254.109.Mryasov O.N. Magnetic interactions and phase transformations in FeM, M = (Pt, Rh) orderedalloys // Phase Transit. 2005. Vol. 78, № 1–3. P. 197–208.110.Deák A. et al. Metallic magnetism at finite temperatures studied by relativistic disorderedmoment description: Theory and applications // Phys. Rev.
B. 2014. Vol. 89, № 22. P.224401.111.Jekal S. et al. Surface-termination-dependent magnetism and strong perpendicularmagnetocrystalline anisotropy of an FeRh(001) thin film // Phys. Rev. B. 2015. Vol. 92, № 6.P. 064410.112.Inoue S. et al. Structural and magneto-optical properties of FeRh thin films // J. Appl. Phys.2008. Vol. 103, № 7. P. 07B312.113.Inoue S. et al. Magnetic and magneto-optical properties of FeRh thin films // J.
Magn. Magn.Mater. 2008. Vol. 320, № 22. P. 3113–3116.114.Lu W., Nam N.T., Suzuki T. Effect of Pt Doping on the Structure, Magnetic, and MagnetoOptical Properties of Ordered FeRh-Pt Thin Films // IEEE Trans. Magn. 2009. Vol. 45, № 6.P. 2716–2719.115.Lu W., Yan B., Suzuki T. Magnetic phase transition and magneto-optical properties inepitaxial FeRh0.95Pt0.05 (0 0 1) single-crystal thin film // Scr. Mater. 2009. Vol. 61, № 9. P.851–854.121116.Mancini E.
et al. Magnetic phase transition in iron–rhodium thin films probed byferromagnetic resonance // J. Phys. Appl. Phys. 2013. Vol. 46, № 24. P. 245302.117.Bordel C. et al. Fe Spin Reorientation across the Metamagnetic Transition in Strained FeRhThin Films // Phys. Rev. Lett. 2012. Vol.
109, № 11. P. 117201.118.Kuncser V. et al. Structural phase transition induced in Fe50Rh50 alloys by high pressure // J.Alloys Compd. 2005. Vol. 386, № 1–2. P. 8–11.119.Chirkova A.M. et al. Pressure Induced AF - F - AF Magnetic Phase Transformations in PdSubstituted FeRh Compound // Solid State Phenom. 2012. Vol. 190. P. 299–302.120.Yuasa S.
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