Simulation of metallic nanostructures for emission of THz radiation   using the lateral photo-Dember effect

Duncan McBryde; Mark E. Barnes; Geoff J. Daniell; Aaron L. Chung,; Zakaria Mihoubi; Adrian H.Quarterman; Keith G. Wilcox; Anne C. Tropper,; Vasilis Apostolopoulos

arXiv:1202.1459·physics.optics·February 8, 2012

Simulation of metallic nanostructures for emission of THz radiation using the lateral photo-Dember effect

Duncan McBryde, Mark E. Barnes, Geoff J. Daniell, Aaron L. Chung,, Zakaria Mihoubi, Adrian H.Quarterman, Keith G. Wilcox, Anne C. Tropper,, Vasilis Apostolopoulos

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TL;DR

This paper presents a 2D simulation of metallic nanostructures to understand and optimize THz radiation emission via the lateral photo-Dember effect driven by ultrafast carrier diffusion.

Contribution

It introduces a simulation approach to model THz emission from metallic nanostructures based on the lateral photo-Dember effect, aiding in the design of efficient THz emitters.

Findings

01

Simulation successfully models THz emission patterns.

02

Design insights for metallic nanostructures to enhance THz output.

03

Potential for optimizing THz emitter performance.

Abstract

A 2D simulation for the lateral photo-Dember effect is used to calculate the THz emission of metallic nanostructures due to ultrafast diffusion of carriers in order to realize a series of THz emitters.

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