V. D. Buchelnikov scite author profile

In ferromagnetic alloys with shape memory large reversible strains can be obtained by rearranging the martensitic domain structure by a magnetic field. Magnetization through displacement of domain walls is possible in the presence of high magnetocrystalline anisotropy, when martensitic structure rearrangement is energetically favorable compared to the reorientation of magnetic moments. In ferromagnetic Heusler alloys Ni2+xMn1−xGa the Curie temperature exceeds the martensitic transformation temperature. The fact that these two temperatures are close to room temperature offers the possibility of magnetically controlling the shape and size of ferromagnets in the martensitic state. In Ni2+xMn1−xGa single crystals, a reversible strain of ∼ 6% is obtained in fields of ∼ 1 T.

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Magnetocaloric effect in Ni2+Mn1−Ga Heusler alloys

Cherechukin

Takagi

Matsumoto

et al. 2004

Physics Letters A

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Structural and magnetic phase transitions in shape memory alloys Ni2 + XMn1 −XGa

Васильев

Bozhko

Ховайло

et al. 1999

Journal of Magnetism and Magnetic Materials

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Buchelnikov¹,

Vasiliev²,

Коледов³

et al. 2006

PHYS-USP

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We present a Lorentz invariant extension of a previous model for intrinsic decoherence (Milburn 1991 Phys. Rev. A 44 5401). The extension uses unital semigroup representations of space and time translations rather than the more usual unitary representation, and does the least violence to physically important invariance principles. Physical consequences include a modification of the uncertainty principle and a modification of field dispersion relations, similar to modifications suggested by quantum gravity and string theory, but without sacrificing Lorentz invariance. Some observational signatures are discussed. 14 Acknowledgments 16

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Shape memory ferromagnets

Васильев¹,

Buchelnikov²,

Takagi³

et al. 2003

Uspekhi Fizicheskikh Nauk

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V. D. Buchelnikov

Shape memory ferromagnets

Magnetocaloric effect in Ni2+Mn1−Ga Heusler alloys

Structural and magnetic phase transitions in shape memory alloys Ni2 + XMn1 −XGa

Untitled

Shape memory ferromagnets

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