Acoustoelectric Methods for the Generation Manipulation and Detection of THz Radiation
Lead Research Organisation:
University of Leeds
Department Name: Electronic and Electrical Engineering
Abstract
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Organisations
Publications
Dawood A
(2019)
Full-wave modelling of terahertz frequency plasmons in two-dimensional electron systems
in Journal of Physics D: Applied Physics
Siaber S
(2019)
Terahertz Plasmon Resonances in Two-Dimensional Electron Systems: Modeling Approaches
in Physical Review Applied
Keeley J
(2019)
Detection sensitivity of laser feedback interferometry using a terahertz quantum cascade laser.
in Optics letters
Park SJ
(2020)
Effect of Substrate Etching on Terahertz Metamaterial Resonances and Its Liquid Sensing Applications.
in Sensors (Basel, Switzerland)
Dunn A
(2020)
High-speed modulation of a terahertz quantum cascade laser by coherent acoustic phonon pulses.
in Nature communications
Parker-Jervis R
(2020)
On-chip terahertz spectroscopy of magnetoplasmons in a two-dimensional electron gas
Park SJ
(2020)
Determination of Permittivity of Dielectric Analytes in the Terahertz Frequency Range Using Split Ring Resonator Elements Integrated with On-Chip Waveguide.
in Sensors (Basel, Switzerland)
Description | This grant has allowed a detailed investigation of the modulation of two dimensional acoustic waves and THz quantum cascade lasers using bulk acoustic waves. Light modulators for THz radiation are a fundamental component of many potential terahertz systems, and are key to transmission of information by a terahertz carrier wave. The main output from this grant was a Nature Communications paper which demonstrated fast modulation of light output from a THz QCL, a topic on which several further grants are now being written. |
Exploitation Route | Building new terahertz systems. Fast modulation schemes for THz QCLs leading to new communications systems. |
Sectors | Electronics |
Description | The work on this grant led to significant academic Impact by nucleating the area of acoustic perturbation of superlattice structures. This work was report in Nature Communications, and was reported on by many news organisation internationally. The work led directly to additional funding by way of a joint Leeds / Nottingham EPSRC grants, EP/V004743/1 and EP/V004751/1. In addition, the establishment of the general area of modulation of terahertz quantum cascade lasers that this grant partly initiated later led to a Programme Grant with Cambridge and UCL, Teracom, EP/W028921/1, in which we are seeking to develop inter-satellite links and faster links within data centres enabled by fast modulation schemes for such quantum cascade lasers. While commercialisation is still some time away, this grant contributed to developing these areas as viable areas of exploration with ICT. |
First Year Of Impact | 2020 |
Sector | Digital/Communication/Information Technologies (including Software) |
Impact Types | Societal |