# Magnon Bose-Einstein condensate and supercurrents over a wide   temperature range

**Authors:** L. Mihalceanu, D.A. Bozhko, V.I. Vasyuchka, A.A. Serga, B., Hillebrands, A. Pomyalov, V.S. L'Vov, V.S. Tiberkevich

arXiv: 1907.08805 · 2020-06-16

## TL;DR

This study investigates magnon Bose-Einstein condensates and supercurrents in yttrium iron garnet across a wide temperature range, revealing temperature-dependent dynamics and supercurrent behavior, including room temperature condensation.

## Contribution

It provides new experimental insights into magnon BEC formation, damping, and supercurrent dynamics over 30 K to 380 K, highlighting room temperature condensation possibilities.

## Key findings

- Magnon BEC observed from 30 K to 380 K.
- Supercurrent dynamics enhanced at 180 K.
- Damping of condensed magnons correlates with injected magnons.

## Abstract

Magnon Bose-Einstein Condensates (BECs) and supercurrents are coherent quantum phenomena, which appear on a macroscopic scale in parametrically populated solid state spinsystems. One of the most fascinating and attractive features of these processes is the possibility of magnon condensation and supercurrent excitation even at room temperature. At the same time, valuable information about a magnon BEC state, such as its lifetime, its formation threshold, and coherency, is provided by experiments at various temperatures. Here, we use Brillouin Light Scattering (BLS) spectroscopy for the investigation of the magnon BEC dynamics in a single-crystal film of yttrium iron garnet in a wide temperature range from 30 K to 380 K. By comparing the BLS results with previous microwave measurements, we re-vealed the direct relation between the damping of the condensed and the parametrically injected magnons. The enhanced supercurrent dynamics was detected at 180 K near the minimum of BEC damping.

## Full text

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## Figures

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## References

39 references — full list in the complete paper: https://tomesphere.com/paper/1907.08805/full.md

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Source: https://tomesphere.com/paper/1907.08805