#Name?

Buhrman, John R.

doi:10.21236/ada344944

Cited by 7 publications

(7 citation statements)

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“…This differs from the much quoted result of Sloncewski [1]. Experimental results [10] are close to the simple sin y result. In the more usual approach sin y is replaced by a gðyÞ which is reflects the relative magnitude G s:s 0 of the different conduction channels of the spacer layer which separates M 1 and M 2 .…”

Section: Experimental Consequencescontrasting

confidence: 90%

Spin motive forces, “measurements”, and spin-valves

Barnes¹

2007

Journal of Magnetism and Magnetic Materials

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Section: Experimental Consequencescontrasting

confidence: 90%

Spin motive forces, “measurements”, and spin-valves

Barnes¹

2007

Journal of Magnetism and Magnetic Materials

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“…However, when we use the m f p appropriate to the interface between Co and Cu, 18,24 we find J ϳ1 nm which is comparable to the upper limit estimated from data on Co/Cu pillars. 29 Our conclusion about the amplification of the spin torque is independent of the size of the spin transfer region ͑as long as d is large enough so that we can consider the conduction in the semiclassical approximation͒, because our overall calculation of the diffusive transport outside the spin transfer regions remains valid, in as much as it is identical to the well-established theory of Valet and Fert for CPP transport. However, the magnitude of the amplification of the spin torque does depend on d; see Eq.…”

Section: Discussion Of Resultsmentioning

confidence: 64%

Self-consistent treatment of nonequilibrium spin torques in magnetic multilayers

Shpiro¹,

Levy²,

Zhang³

2003

Phys. Rev. B

154

150

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It is known that the transfer of spin angular momenta between current carriers and local moments occurs near the interface of magnetic layers when their moments are noncollinear. However, to determine the magnitude of the transfer, one should calculate the spin transport properties far beyond the interface regions. Based on the spin-diffusion equation, we present a self-consistent approach to evaluate the spin torque for a number of layered structures. One of the salient features is that the longitudinal and transverse components of spin accumulations are intertwined from one layer to the next, due to the presence of the much longer longitudinal spin-diffusion length and thus, the spin torque could be significantly amplified with respect to treatments which concentrate solely on the transport at the interface. We conclude that bare spin currents do not properly estimate the spin angular momentum transferred between the magnetic background; the spin transfer that occurs at interfaces should be self-consistently determined by embedding it in our globally diffuse transport calculations.

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“…It might however be possible to increase this visibility-and even obtain a perfect simulation with V = 1-with a different protocol, possibly using more (but still finite) communication, in addition to bilocal shared randomness. Recent results in this direction indeed look quite promising [42].…”

Section: Simulation Of Entanglement Swapping With Communication?mentioning

confidence: 92%

Bilocal versus nonbilocal correlations in entanglement-swapping experiments

et al. 2012

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Entanglement swapping is a process by which two initially independent quantum systems can become entangled and generate nonlocal correlations. To characterize such correlations, we compare them to those predicted by bilocal models, where systems that are initially independent are described by uncorrelated states. We extend in this paper the analysis of bilocal correlations initiated in [Phys. Rev. Lett. 104, 170401 (2010)]. In particular, we derive new Bell-type inequalities based on the bilocality assumption in different scenarios, we study their possible quantum violations, and we analyze their resistance to experimental imperfections. The bilocality assumption, being stronger than Bell's standard local causality assumption, lowers the requirements for the demonstration of quantumness in entanglement-swapping experiments.

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#Name?

Cited by 7 publications

References 0 publications

Spin motive forces, “measurements”, and spin-valves

Spin motive forces, “measurements”, and spin-valves

Self-consistent treatment of nonequilibrium spin torques in magnetic multilayers

Bilocal versus nonbilocal correlations in entanglement-swapping experiments

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