News 首页>News

Quantum jamming transition to a correlated electron glass

发布时间:2019-07-31浏览次数:53

Distinct many-body states may be created under non-equilibrium conditions through different ordering paths, even when their constituents are subjected to the same fundamental interactions. The phase-transition mechanism to such states remains poorly understood. Here, we show that controlled optical or electromagnetic perturbations can lead to an amorphous metastable state of strongly correlated electrons in a quasi-two-dimensional dichalcogenide. Scanning tunnelling microscopy reveals a hyperuniform pattern of localized charges, whereas multitip surface nanoscale conductivity measurements and tunnelling spectroscopy show an electronically gapless conducting state that is different from conventional Coulomb glasses and many-body localized systems. The state is stable up to room temperature and shows no signs of either local charge order or phase separation. The mechanism for its formation is attributed to a dynamical localization of electrons through mutual interactions. Theoretical calculations confirm the correlations between localized charges to be crucial for the state’s unusual stability.

关于康瑞

    沙河市金康玻璃制品有限公司坐落于玻璃生产基地——沙河市,占地面积两千平方米,拥有现代化的厂房和办公楼。工厂拥有铝镜生产线三条、银镜生产线一条,压延生产线一条及全自动电脑切割机、磨边机、高强度钢化率及丝···

多盈平台官网(中国)有限公司

Mail Us

Email: april@kenryglass.com

Address: No.2 Jingba Road, Economic Development Zone, Shahe city, Hebei province, China

Mobile/ WhatsApp/ Wechat: +86 13306822944/ +86 15233948108

Telephone/ Fax: +86 319 8622180