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Spontaneous magnetoresistance anisotropy

Figure 1 Spontaneous magnetoresistance anisotropy Ap of Feo.2Nio g as a function of the scaling parameters (cq/c) (o) and ( ). The experimental value is that from to Jaoul et al. [9j. Figure 1 Spontaneous magnetoresistance anisotropy Ap of Feo.2Nio g as a function of the scaling parameters (cq/c) (o) and ( ). The experimental value is that from to Jaoul et al. [9j.
Figure 5.13 Isotropic residual resistivity p (left), and spontaneous magnetoresistance anisotropy ratio A p/p (right) of disordered BCC-Fe Coj alloys calculated in four different... Figure 5.13 Isotropic residual resistivity p (left), and spontaneous magnetoresistance anisotropy ratio A p/p (right) of disordered BCC-Fe Coj alloys calculated in four different...
Fig. 6.43. The magnetoresistance of gadolinium at 205 K, showing the spontaneous anisotropy described in section 6.1 and the linear negative magnetoresistance discussed in section 6.2. The arrows indicate the applied field needed to create a single domain in the two configurations (after McEwen and Webber 1976). Fig. 6.43. The magnetoresistance of gadolinium at 205 K, showing the spontaneous anisotropy described in section 6.1 and the linear negative magnetoresistance discussed in section 6.2. The arrows indicate the applied field needed to create a single domain in the two configurations (after McEwen and Webber 1976).
See other pages where Spontaneous magnetoresistance anisotropy is mentioned: [Pg.283]    [Pg.202]    [Pg.283]    [Pg.285]    [Pg.477]    [Pg.423]   
See also in sourсe #XX -- [ Pg.202 ]



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Spontaneous magnetoresistance

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