Spatially encoded telecoms and quantum technologies using spin-enabled all-optical switching - Spin Space
Lead Research Organisation:
University of Essex
Department Name: Computer Sci and Electronic Engineering
Abstract
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Publications
Cemlyn B
(2019)
Polarization Responses of a Solitary and Optically Injected Vertical Cavity Spin Laser
in IEEE Journal of Quantum Electronics
Harbord E
(2019)
Confined Tamm optical states coupled to quantum dots in a photoconductive detector
in Applied Physics Letters
Hejda M
(2023)
Spiking Behaviour in Laterally-Coupled Pairs of VCSELs With Applications in Neuromorphic Photonics
in IEEE Journal of Selected Topics in Quantum Electronics
Huang Y
(2021)
Optically Pumped Spin-VCSELs: Toward High-Frequency Polarization Oscillations and Modulation
in IEEE Journal of Quantum Electronics
Li N
(2018)
Modulation properties of solitary and optically injected phased-array semiconductor lasers
in Photonics Research
Li N
(2016)
Stability Analysis of Quantum-Dot Spin-VCSELs
in Electronics
Li N
(2017)
Secure communication systems based on chaos in optically pumped spin-VCSELs.
in Optics letters
Li N
(2018)
Locking bandwidth of two laterally-coupled semiconductor lasers subject to optical injection.
in Scientific reports
Li N
(2017)
Stability and bifurcation analysis of spin-polarized vertical-cavity surface-emitting lasers
in Physical Review A
Description | The impact of this work is recorded against grant ref EP/M024156/1 |
First Year Of Impact | 2022 |
Sector | Digital/Communication/Information Technologies (including Software) |
Impact Types | Economic |
Description | coupled nanowire lasers |
Organisation | University of Strathclyde |
Department | Institute of Photonics |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Our published work on the dynamics mutually coupled VCSELs done under our spin SPINSPACE project led to discussions about whether the same tools and techniques could be applied to the case of optically coupled nanowire lasers which is being studied at Strathclyde. We worked together to model the dynamics of example nanowire laser cases, and that has led to a publication (under review) and to a grant application which is in preparation. |
Collaborator Contribution | Strathclyde modelling the optical properties of mutually coupled nano wire lasers. Essex application of tools as techniques to study the dynamics of coupled devices |
Impact | Publication which is under review. Grant application which is in preparation. |
Start Year | 2018 |