Ultrabroadband photosensitivity from visible to terahertz at room temperature | Zendy

Dong Wu | Zendy; Yongchang Ma | Zendy; Yingying Niu | Zendy; Qiaomei Liu | Zendy; Tao Dong | Zendy; S. J. Zhang | Zendy; Jiasen Niu | Zendy; Huibin Zhou | Zendy; Jian Wei | Zendy; Yingxin Wang | Zendy; Ziran Zhao | Zendy; Nanlin Wang | Zendy

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Ultrabroadband photosensitivity from visible to terahertz at room temperature

Author(s) -

Dong Wu,

Yongchang Ma,

Yingying Niu,

Qiaomei Liu,

Tao Dong,

S. J. Zhang,

Jiasen Niu,

Huibin Zhou,

Jian Wei,

Yingxin Wang,

Ziran Zhao,

Nanlin Wang

Publication year - 2018

Publication title -

science advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.aao3057

Subject(s) - photosensitivity , terahertz radiation , visible spectrum , optoelectronics , materials science , optics , physics

Charge density wave (CDW) is one of the most fundamental quantum phenomena in solids. Different from ordinary metals in which only single-particle excitations exist, CDW also has collective excitations and can carry electric current in a collective fashion. Manipulating this collective condensation for applications has long been a goal in the condensed matter and materials community. We show that the CDW system of 1T-TaS is highly sensitive to light directly from visible down to terahertz, with current responsivities on the order of ~1 AW at room temperature. Our findings open a new avenue for realizing uncooled, ultrabroadband, and sensitive photoelectronics continuously down to the terahertz spectral range.

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