Phase transition of environment for overcoming the trade-off between controlling and protecting quantum states

Oct 2017– Sept 2021: In order to push the frontier of quantum technologies into the real societies, we try to establish a strategy for overcoming the trade-off between controlling and protecting quantum states. In contrast to the conventional way relying on the suppression of decoherence sources in fabrication processes, we artificially cause a phase transition of environment incorporating the decoherence sources, which are expected to be pinned by a spontaneously appeared field and an engineered energy gap in the environment, while keeping quantum-bits unchanged.

Papers: Ultrastrong magnon–magnon coupling dominated by antiresonant interactions

Books And Other Publications: Semiconductor quantum science and technology

Presentations: Strong Light-Matter Coupling in Condensed Matters

URL:  http://www.jst.go.jp/kisoken/presto/en/project/1112078/1112078_2017.html#fc1985c19899678eb864b14514a1e325