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Spin Berry points as crucial for ultrafast demagnetization

Journal Article · · Modern Physics Letters B
 [1];  [2];  [3]
  1. Department of Physics, Indiana State University, Terre Haute, IN 47809, USA
  2. Office of Information Technology, Indiana State University, Terre Haute, IN 47809, USA
  3. Department of Chemistry & Biochemistry and Department of Physics & Astronomy, University of Missouri–St. Louis, St. Louis, MO 63121, USA
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Laser-induced ultrafast demagnetization has puzzled researchers around the world for over two decades. Intrinsic complexity in electronic, magnetic and phononic subsystems is difficult to understand microscopically. So far, it is not possible to explain demagnetization using a single mechanism, which suggests a crucial piece of information still missing. In this paper, we return to a fundamental aspect of physics: spin and its change within each band in the entire Brillouin zone. We employ face-centered cubic (fcc) Ni as an example and use an extremely dense k mesh to map out spin changes for every band close to the Fermi level along all the high symmetry lines. To our surprise, spin angular momentum at some special k points abruptly changes from [Formula: see text] to [Formula: see text] simply by moving from one crystal momentum point to the next. This explains why intraband transitions, which the spin superdiffusion model is based upon, can induce a sharp spin moment reduction, and why electric current can change spin orientation in spintronics. These special k points, which are called spin Berry points [M. V. Berry, Proc. R. Soc. Lond. A 393 (1984) 45], are not random and appear when several bands are close to each other, so the Berry potential of spin majority states is different from that of spin minority states. Although within a single band, spin Berry points jump, when we group several neighboring bands together, they form distinctive smooth spin Berry lines. It is the band structure that disrupts those lines. Spin Berry points are crucial to laser-induced ultrafast demagnetization and spintronics.

Research Organization:
Indiana State Univ., Terre Haute, IN (United States); Univ. of California, Oakland, CA (United States); Argonne National Lab. (ANL), Argonne, IL (United States)
Sponsoring Organization:
USDOE Office of Science (SC)
DOE Contract Number:
FG02-06ER46304; AC02-05CH11231; AC02-06CH11357
OSTI ID:
1849692
Journal Information:
Modern Physics Letters B, Vol. 35, Issue 13; ISSN 0217-9849
Publisher:
World Scientific Publishing
Country of Publication:
United States
Language:
English

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