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Scientists trap light inside a magnet

Date:
August 16, 2023
Source:
City College of New York
Summary:
A new study shows that trapping light inside magnetic materials may dramatically enhance their intrinsic properties. Strong optical responses of magnets are important for the development of magnetic lasers and magneto-optical memory devices, as well as for emerging quantum transduction applications.
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A new study led by Vinod M. Menon and his group at the City College of New York shows that trapping light inside magnetic materials may dramatically enhance their intrinsic properties. Strong optical responses of magnets are important for the development of magnetic lasers and magneto-optical memory devices, as well as for emerging quantum transduction applications.

In their new article in Nature, Menon and his team report the properties of a layered magnet that hosts strongly bound excitons -- quasiparticles with particularly strong optical interactions. Because of that, the material is capable of trapping light -- all by itself. As their experiments show, the optical responses of this material to magnetic phenomena are orders of magnitude stronger than those in typical magnets. "Since the light bounces back and forth inside the magnet, interactions are genuinely enhanced," said Dr. Florian Dirnberger, the lead-author of the study. "To give an example, when we apply an external magnetic field the near-infrared reflection of light is altered so much, the material basically changes its color. That's a pretty strong magneto-optic response."

"Ordinarily, light does not respond so strongly to magnetism," said Menon. "This is why technological applications based on magneto-optic effects often require the implementation of sensitive optical detection schemes."

On how the advances can benefit ordinary people, study co-author Jiamin Quan said: "Technological applications of magnetic materials today are mostly related to magneto-electric phenomena. Given such strong interactions between magnetism and light, we can now hope to one day create magnetic lasers and may reconsider old concepts of optically controlled magnetic memory." Rezlind Bushati, a graduate student in the Menon group, also contributed to the experimental work.

The study conducted in close collaboration with Andrea Alù and his group at CUNY Advanced Science Research Center is the result of a major international collaboration. Experiments conducted at CCNY and ASRC were complemented by measurements taken at the University of Washington in the group of Prof. Xiaodong Xu by Dr. Geoffrey Diederich. Theoretical support was provided by Dr. Akashdeep Kamra and Prof. Francisco J. Garcia-Vidal from the Universidad Autónoma de Madrid and Dr. Matthias Florian from the University of Michigan. The materials were grown by Prof. Zdenek Sofer and Kseniia Mosina at the UCT Prague and the project was further supported by Dr. Julian Klein at MIT. The work at CCNY was supported through the US Air Force Office of Scientific Research, the National Science Foundation (NSF) -- Division of Materials Research, the NSF CREST IDEALS center, DARPA and the German Research Foundation.


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Materials provided by City College of New York. Note: Content may be edited for style and length.


Journal Reference:

  1. Florian Dirnberger, Jiamin Quan, Rezlind Bushati, Geoffrey M. Diederich, Matthias Florian, Julian Klein, Kseniia Mosina, Zdenek Sofer, Xiaodong Xu, Akashdeep Kamra, Francisco J. García-Vidal, Andrea Alù, Vinod M. Menon. Magneto-optics in a van der Waals magnet tuned by self-hybridized polaritons. Nature, 2023; 620 (7974): 533 DOI: 10.1038/s41586-023-06275-2

Cite This Page:

City College of New York. "Scientists trap light inside a magnet." ScienceDaily. ScienceDaily, 16 August 2023. <www.sciencedaily.com/releases/2023/08/230816170621.htm>.
City College of New York. (2023, August 16). Scientists trap light inside a magnet. ScienceDaily. Retrieved June 13, 2024 from www.sciencedaily.com/releases/2023/08/230816170621.htm
City College of New York. "Scientists trap light inside a magnet." ScienceDaily. www.sciencedaily.com/releases/2023/08/230816170621.htm (accessed June 13, 2024).

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