P. E. Petrov, G. A. Knyazev, A. N. Kuzmichev, P. M. Vetoshko, V. I. Belotelov, Yu. M. Bunkov, “Transition to a magnon Bose–Einstein condensate”, Pis'ma v Zh. Èksper. Teoret. Fiz., 2024, Volume 119, Issue 2,Pages <nobr>120

This article is cited in 1 paper

CONDENSED MATTER

Transition to a magnon Bose–Einstein condensate

P. E. Petrov^ab, G. A. Knyazev^ba, A. N. Kuzmichev^b, P. M. Vetoshko^bcd, V. I. Belotelov^cab, Yu. M. Bunkov^b

^a Moscow State University, Moscow, 119992 Russia
^b Russian Quantum Center, Skolkovo, Moscow, 121205 Russia
^c Vernadsky Crimean Federal University, Simferopol, 295007 Russia
^d Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow, 125009 Russia

Abstract: Parameters of the transition from classical dynamics of spin waves to the formation of a coherent magnon Bose–Einstein condensate have been obtained experimentally for the first time. The studies are performed on an yttrium iron garnet film beyond the radio frequency excitation region; thus, the coherent state of magnons is an eigenstate rather than a state induced by an external radio frequency field. The critical magnon density at the formation of the Bose–Einstein condensate is in good agreement with a theoretically predicted value. The transition is obtained at room temperature, which is possible owing to a small mass of magnons and their high density.

Received: 16.11.2023
Revised: 30.11.2023
Accepted: 30.11.2023

DOI: 10.31857/S1234567824020095