Cavity Probes and Control of Antiferromagnetic Fluctuations in a Mott Insulator
ORAL
Abstract
We present a mechanism for coupling the electromagnetic field of a THz cavity to the antiferromagnetic order in a simplified model of an undoped cuprate Mott insulator. In addition to the direct magnetic-dipole coupling between spins and the magnetic component of the near-field radiation, we also consider a more elaborate magnetoelectric coupling which couples various spin-exchange processes to the electric field. We show how these terms can lead to the formation of Neel magnon-polariton resonances, as well as allow for the optical parametric driving of spin-waves. We identify clear experimental signatures to look for in a proposed setup. Finally, we conclude by speculating about the fate of charge carriers doped into the system in the presence of our coupling scheme.
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Presenters
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Jonathan Curtis
Harvard University
Authors
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Jonathan Curtis
Harvard University
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Andrey Grankin
University of Maryland, College Park
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Nicholas Poniatowski
Harvard University, Maryland Quantum Materials Center, Department of Physics, University of Maryland, College Park
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Prineha Narang
Harvard University, SEAS, Harvard University, John A. Paulson School of Engineering & Applied Science, Harvard University, Harvard John A. Paulson School of Engineering and Applied Sciences, Harvard University, Physics, Harvard University, John A. Paulson School of Engineering and Applied Sciences, Harvard University
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Victor Galitski
University of Maryland, College Park
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Eugene Demler
Harvard University, Department of Physics, Harvard University