Title :
On-chip integration of laser-ablated zone plates for detection enhancement of inGaAs bow-tie terahertz detectors
Author :
MinkevicÌŒius, L. ; TamosÌŒiuÌ…nas, V. ; Madeikis, K. ; Voisiat, B. ; KasÌŒalynas, I. ; ValusÌŒis, G.
Author_Institution :
Center for Phys. Sci. & Technol., Vilnius, Lithuania
fDate :
September 11 2014
Abstract :
One order of magnitude detection enhancement of bow-tie-shaped InGaAs-based terahertz detectors by on-chip incorporation of the secondary diffractive optics is reported. Zone plates were produced directly on the bottom surface of 500 μm-thick InP substrate using the direct laser write technique after an array of InGaAs detectors was formed on the front surface of the wafer. Measurements of detected signal dependence on the angle of the incident wave were performed at 0.76 THz and compared with finite-difference time-domain simulation results. Good correlation of the results shows that the observed enhancement is indeed caused by the focusing performance of the zone plate rather than by the exceptional sensitivity of the single detector.
Keywords :
angular measurement; diffractive optical elements; finite difference time-domain analysis; gallium arsenide; indium compounds; laser ablation; measurement by laser beam; optical focusing; optical sensors; submillimetre wave detectors; terahertz wave detectors; InGaAs; InP; angle measurement; bow-tie-shaped terahertz detector; detected signal dependence measurement; direct laser write technique; finite-difference time-domain simulation; frequency 0.76 THz; laser-ablated zone plate; magnitude detection enhancement; on-chip integration; secondary diffractive optics; size 500 mum;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2014.1893
