Revisiting the Einstein-de Haas Effect

Michael G Dunsmore; Kayte Mori; Miro Belov; John Thibault; Vincent T.K. Sauer; Joseph E Losby; Mark Freeman

Revisiting the Einstein-de Haas Effect

ORAL

Abstract

The Einstein-de Haas (EdH) effect manifests the intrinsic connection between magnetic moment and mechanical angular momentum. In the original experiment [1], angular momentum changes induced in an iron cylinder by field-driven changes in the net magnetic moment were detected via resonant motion of a torsion pendulum. The miniaturization of torque sensors [2], combined with ultrasensitive optical detection, enables routine measurements of EdH effects. Millimeter to nanometer-scale sensors affixed to yttrium iron garnet structures were fabricated to explore the frequency-dependence of the EdH effect. Described are experimental methods for distinguishing EdH and conventional magnetic torques simultaneously.

[1] A. Einstein and W. J. de Haas, Proc.—KNAW 18, 696 (1915).
[2] J.E. Losby, V.T.K. Sauer, and M.R. Freeman, J. Phys. D: Appl. Phys. 51, 483001 (2018).

^*The authors wish to acknowledge support from the Natural Sciences and Engineering Research Council, Canada, the Canada Research Chairs program, and the Faculty of Science, University of Alberta.

March 8, 2019, 10:12 AM – March 8, 2019, 10:24 AM

Presenters

Michael G Dunsmore
- University of Alberta

Authors

Michael G Dunsmore
- University of Alberta
Kayte Mori
- University of Alberta
Miro Belov
- University of Alberta
John Thibault
- University of Alberta
Vincent T.K. Sauer
- University of Alberta
Joseph E Losby
- University of Alberta
Mark Freeman
- University of Alberta