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Title    Research Takes Electrons for a Spin in Moving Toward More Efficient, Higher Density Data
Date    Tuesday May 19 2020, @02:22PM
Author    Fnord666
Topic   
from the taking-your-storage-for-a-spin dept.
https://soylentnews.org/article.pl?sid=20/05/19/0336233

martyb writes:

Research takes electrons for a spin in moving toward more efficient, higher density data:

"One of the major goals of spintronics research is to control the direction of the spin of electrons in materials," explains Andrew Kent, a professor in NYU's Department of Physics and one of the paper's senior authors. "This research shows a new and fundamental mechanism for setting the electron spin direction in a conducting material."

"This advance in spintronics offers a novel way to exert torques on a magnetic layer," adds senior co-author Jonathan Sun of IBM Research and a visiting scholar at NYU. "It's a promising advance that has the potential to reduce energy and space requirements for device data storage."

The work, conducted with Junwen Xu, an NYU graduate student, and Christopher Safranski of IBM Research, is the latest example of a phenomenon central to the transmission of information: altering it from one form to another.

[...] In the Physical Review Letters research, Safranski, Sun, Xu, and Kent focused on demonstrating a novel mechanism for the control of spin direction—the direction that controls the stored bits of information.

Historically, current flow in non-magnetic heavy metals has been shown to lead to spin polarization, or a direction of its net magnetic moment, at the surface of the conductor, an effect known as the spin Hall effect. However, the direction of the spin polarization in the spin Hall effect is always parallel to the surface of the conductor. This limits its applications because it provides only one possible axis of spin polarization, limiting storage density.

In the Physical Review Letters research, the scientists used the planar-Hall effect in a ferromagnetic conductor to control the orientation of the spin-polarization axis.

Specifically, they deployed a ferromagnetic conductor—iron, nickel, and cobalt are examples of such conductors—and found that current flow in the conductor can produce a spin polarization that is in a direction set by its magnetic moment. This is significant because the magnetic moment direction can now be set in just about any desired direction to then set the spin polarization—a flexibility not possible under the contours of the spin Hall effect in non-magnetic heavy metals.

Journal Reference
Christopher Safranski, Jonathan Z. Sun, Jun-Wen Xu, et al. Planar Hall Driven Torque in a Ferromagnet/Nonmagnet/Ferromagnet System, Physical Review Letters (DOI: 10.1103/PhysRevLett.124.197204)


Original Submission

Links

  1. "martyb" - https://soylentnews.org/~martyb/
  2. "Research takes electrons for a spin in moving toward more efficient, higher density data" - https://phys.org/news/2020-05-electrons-efficient-higher-density.html
  3. "10.1103/PhysRevLett.124.197204" - https://doi.org/10.1103/PhysRevLett.124.197204
  4. "Original Submission" - https://soylentnews.org/submit.pl?op=viewsub&subid=41083

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