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Article Dans Une Revue Npj Quantum Materials Année : 2023

Stabilizing electromagnons in CuO under pressure

Résumé

Abstract Electromagnons (Electroactive spin wave excitations) could prove to be decisive in information technologies but they remain fragile quantum objects, mainly existing at low temperatures. Any future technological application requires overcoming these two limitations. By means of synchrotron radiation infrared spectroscopy performed in the THz energy range and under hydrostatic pressure, we tracked the electromagnon in the cupric oxide CuO, despite its very low absorption intensity. We demonstrate how a low pressure of 3.3 GPa strongly increases the strength of the electromagnon and expands its existence to a large temperature range enhanced by 40 K. Accordingly, these two combined effects make the electromagnon of CuO under pressure a more ductile quantum object. Numerical simulations based on an extended Heisenberg model were combined to the Monte-Carlo technique and spin dynamics to account for the magnetic phase diagram of CuO. They enable to simulate the absorbance response of the CuO electromagnons in the THz range.

Dates et versions

hal-04433968 , version 1 (02-02-2024)

Identifiants

Citer

M. Verseils, P. Hemme, Dalila Bounoua, R. Cervasio, J-B. Brubach, et al.. Stabilizing electromagnons in CuO under pressure. Npj Quantum Materials, 2023, 8 (1), pp.11. ⟨10.1038/s41535-023-00542-1⟩. ⟨hal-04433968⟩
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