Hadi Razavipour scite author profile

We study the Fermi energy level dependence of nonlinear terahertz (THz) transmission of gated multi-layer and single-layer graphene transferred onto sapphire and quartz substrates. The two samples represent two limits of low-field impurity scattering: short-range neutral and long-range charged impurity scattering, respectively. We observe an increase in the transmission as the field amplitude is increased due to intraband absorption bleaching starting at fields above 8 kV/cm. This effect arises from a field-induced reduction in THz conductivity that depends strongly on the Fermi energy. We account for intraband absorption using a free carrier Drude model that includes neutral and charged impurity scattering as well as optical phonon scattering. We find that although the Fermi-level dependence in the monolayer and five-layer samples is quite different, both exhibit a strong dependence on the field amplitude that cannot be explained on the basis of an increase in the lattice temperature alone. Our results provide a deeper understanding of transport in graphene devices operating at THz frequencies and in modest kV/cm field strengths where nonlinearities exist.

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A new high-power, dual-band, E-plane, ferrite circulator

Razavipour

Askari

Fesharaki

et al. 2009

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Field displacement in a traveling-wave ring resonator meta-structure

Kodera

Sounas

Nguyen

et al. 2011

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A New Dual-Band High Power Ferrite Circulator

Razavipour¹,

Safian²,

Askari³

et al. 2009

PIER C

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Hadi Razavipour

Effect of extreme pump pulse reshaping on intense terahertz emission in lithium niobate at multimilliJoule pump energies

High-field response of gated graphene at terahertz frequencies

A new high-power, dual-band, E-plane, ferrite circulator

Field displacement in a traveling-wave ring resonator meta-structure

A New Dual-Band High Power Ferrite Circulator

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