A Connected Array of Coherent Photoconductive Pulsed Sources to Generate mW Average Power in the Submillimeter Wavelength Band
Alessandro Garufo (TNO)
P.M. Sberna (TU Delft - EKL Equipment)
Giorgio Carluccio (NXP Semiconductors)
Joshua R. Freeman (University of Leeds)
David R. Bacon (University of Leeds)
Lianhe Li (University of Leeds)
J.J.A. Baselmans (SRON–Netherlands Institute for Space Research)
Nuria Llombart (TU Delft - Tera-Hertz Sensing)
A. Neto (TU Delft - Tera-Hertz Sensing)
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Abstract
A pulsed photoconductive terahertz (THz) source is presented that is able to radiate milliwatt (mW) level average power over a large bandwidth, by exploiting both the optical and electrical properties of photoconductive sources and the ultrawideband properties of connected antenna arrays. An optical system composed of a microlenses array splits the laser beam into N×N
spots that host the active excitation of the antenna arrays. An “ad hoc” network is introduced to bias the array active spots in order to implement a connected antenna array configuration. The array feeds a silicon lens to increase the directivity of the radiated THz beam. A dipole and a slot array are designed. Prototypes have been fabricated and measured. Power and spectrum measurements of the prototypes are in excellent agreement with the expected results. The proposed solutions achieve excellent power radiation levels by exploiting accurate electromagnetic design. Thus, they can offer enhancements to any active system relying on pulsed photoconductive antennas.
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