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Nonlinear optical conductance in a graphene pn junction in the terahertz regime

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posted on 2024-11-15, 04:17 authored by XG Xu, S Sultan, Chao ZhangChao Zhang, JC Cao
We show that the optical responses of a graphene pn junction is dominated by nonlinear intraband and interband processes. At the experimentally relevant electric field intensity, nonlinear conductance is an order of magnitude larger than the linear conductance. Furthermore, the total conductance is negative in the terahertz to far infrared regime. The negative conductance provides a unique mechanism for photon generation in graphene and could be used for developing coherent terahertz radiation sources.

History

Citation

Sultan, S., Cao, J., Xu, X. and Zhang, C. (2010). Nonlinear optical conductance in a graphene pn junction in the terahertz regime. Applied Physics Letters, 97 (1), 011907-1-011907-3.

Journal title

Applied Physics Letters

Volume

97

Issue

1

Pagination

011907-1-011907-3

Language

English

RIS ID

33078

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