Light-induced ferromagnetism above the Curie temperature in CrGeTe3

G. Scharf; A. Ner Gaon; P. M. Sarte; B. R. Ortiz; S. D. Wilson; A. Ron

doi:10.1103/PhysRevB.111.L100408

Light-induced ferromagnetism above the Curie temperature in CrGeTe3

G. Scharf
, A. Ner Gaon
, P. M. Sarte
, B. R. Ortiz
, S. D. Wilson
, A. Ron

Research output: Contribution to journal › Article › peer-review

Abstract

Ultrafast optical control of magnetism is a vibrant field in which femtosecond laser pulses are used to tune, manipulate, and enhance material magnetic properties. In this work, we induce ferromagnetism above TCurie by utilizing the coupling between spin and electrons in CrGeTe3. We suggest that the optical excitation electrons in CrGeTe3 induces a transition from a short-range to long-range magnetic ordering. We discuss the relation of the transition to the magnetic anisotropy of CrGeTe3 and the similarities of the photoinduced magnetism to cases where TCuriewas enhanced in CrGeTe3 by means of electrostatic gating, chemical doping, and hydrostatic pressure.

Original language	English
Article number	L100408
Journal	Physical Review B
Volume	111
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevB.111.L100408
State	Published - Mar 1 2025
Externally published	Yes

Funding

A.R. acknowledges support from the Zuckerman Foundation, the Israel Science Foundation (Grant No. 1017/20) and the KLA corporation for their generous support. G.S. acknowledges support from the Israeli Clore fellowship and Nova Ltd. for their generous support. S.D.W., B.R.O., and P.S. gratefully acknowledge support via the UC Santa Barbara NSF Quantum Foundry funded via the Q-AMASE-i program under Award No. DMR-1906325.

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title = "Light-induced ferromagnetism above the Curie temperature in CrGeTe3",

abstract = "Ultrafast optical control of magnetism is a vibrant field in which femtosecond laser pulses are used to tune, manipulate, and enhance material magnetic properties. In this work, we induce ferromagnetism above TCurie by utilizing the coupling between spin and electrons in CrGeTe3. We suggest that the optical excitation electrons in CrGeTe3 induces a transition from a short-range to long-range magnetic ordering. We discuss the relation of the transition to the magnetic anisotropy of CrGeTe3 and the similarities of the photoinduced magnetism to cases where TCuriewas enhanced in CrGeTe3 by means of electrostatic gating, chemical doping, and hydrostatic pressure.",

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AU - Scharf, G.

AU - Gaon, A. Ner

AU - Sarte, P. M.

AU - Ortiz, B. R.

AU - Wilson, S. D.

AU - Ron, A.

PY - 2025/3/1

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AB - Ultrafast optical control of magnetism is a vibrant field in which femtosecond laser pulses are used to tune, manipulate, and enhance material magnetic properties. In this work, we induce ferromagnetism above TCurie by utilizing the coupling between spin and electrons in CrGeTe3. We suggest that the optical excitation electrons in CrGeTe3 induces a transition from a short-range to long-range magnetic ordering. We discuss the relation of the transition to the magnetic anisotropy of CrGeTe3 and the similarities of the photoinduced magnetism to cases where TCuriewas enhanced in CrGeTe3 by means of electrostatic gating, chemical doping, and hydrostatic pressure.

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VL - 111

JO - Physical Review B

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Light-induced ferromagnetism above the Curie temperature in CrGeTe3

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