A Connected Array of Coherent Photoconductive Pulsed Sources to Generate mW Average Power in a 5 THz Bandwidth

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A Connected Array of Coherent Photoconductive Pulsed Sources to Generate mW Average Power in a 5 THz Bandwidth

Conference Paper (2020)

Author(s)

A. Pelekanidis (Student TU Delft)

P.M. Sberna (TU Delft - EKL Processing, TU Delft - Else Kooi Laboratory)

D. Fan (TU Delft - Micro and Nano Engineering)

J. Bueno Lopez (TU Delft - Tera-Hertz Sensing)

Nuria Llombart (TU Delft - Tera-Hertz Sensing)

A. Neto (TU Delft - Tera-Hertz Sensing)

Research Group

EKL Processing

DOI related publication

https://doi.org/10.1109/IRMMW-THz46771.2020.9370449

To reference this document use:

https://resolver.tudelft.nl/uuid:604ebcf2-7512-43f6-a427-dda03b13208c

More Info

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Publication Year

2020

Language

English

Research Group

EKL Processing

Pages (from-to)

303

ISBN (electronic)

9781728166209

Abstract

Recently, we have experimentally demonstrated the generation of mW average power, in the 100-600GHz bandwidth, by photoconductive sources using a connected array of dipoles coherently fed via a free-standing micro-lens array. In this contribution, we extend these sources to a much wider bandwidth reaching 5THz, without compromising the radiated power, by resorting to a tight array periodicity of 15Ϝm between the array elements and the use of an integrated 3D-printed micro-lens array to focus the laser power.

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