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Showing 1–4 of 4 results

Advanced filters: Author: Tomosato Hioki Clear advanced filters

Single- and two-mode magnon thermal squeezing

Obtaining squeezed states in magnets are a key challenge for future spin-based sensing and information technology. Now thermal squeezing of magnons, where noise drops below thermal levels, is shown in a ferrimagnetic insulator device.

Tomosato Hioki
Kaito Tojo
Eiji Saitoh
Research01 Jun 2026
Nature Physics

P: 1-7
Thermal imaging of spin Peltier effect

The spin Peltier effect produces a temperature difference along the direction of a spin current. Here, the authors use an active thermography technique to visualize the temperature modulation induced by a spin current injected into a magnetic insulator from an adjacent metal.

Shunsuke Daimon
Ryo Iguchi
Ken-ichi Uchida
ResearchOpen Access12 Dec 2016
Nature Communications

Volume: 7, P: 1-7
Bi-reflection of spin waves

Refracting light waves can split at two different angles, a phenomenon called birefringence, whereas for reflected waves the incident and reflected angle are usually the same. Here, using time-resolved magneto-optical microscopy the authors report the bi-reflection of magnetic spin waves when hybridising with elastic waves.

Tomosato Hioki
Yusuke Hashimoto
Eiji Saitoh
ResearchOpen Access27 Oct 2020
Communications Physics

Volume: 3, P: 1-6
Coherent oscillation between phonons and magnons

In the field of spintronics, coherent control of propagating magnons is considered a promising mechanism for information processing. Here, strong coupling between magnons and phonons in lutetium iron garnet gives rise to long-lived coherent beating.

Tomosato Hioki
Yusuke Hashimoto
Eiji Saitoh
ResearchOpen Access11 May 2022
Communications Physics

Volume: 5, P: 1-8