Author:
Terakado Nobuaki,Nara Yoshinori,Machida Yuki,Takahashi Yoshihiro,Fujiwara Takumi
Abstract
AbstractDynamic control of heat flow for applications in thermal management has attracted much interest in fields such as electronics and thermal engineering. Spin-chain ladder cuprates are promising materials to realize dynamic control of heat flow, since their magnon thermal conductivity is sensitive to the hole density in the spin ladders, which can be dynamically controlled by an external field. Here, we demonstrate the electric control of heat flow using a polycrystalline cuprate film and an ionic liquid. The results showed that a voltage application to the interface causes imperfectly recoverable decreases in both the thermal conductance of the film and the peak due to magnons in the Raman spectra. This result may be attributed to an increase in the hole density in the spin ladders. This report highlights that magnon thermal conduction has potential for the development of advanced thermal management applications.
Funder
Japan Science and Technology Agency
Japan Society for the Promotion of Science
Publisher
Springer Science and Business Media LLC
Cited by
14 articles.
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