Resonator embedded photonic crystal surface emitting lasers
Published by
npj Nanophotonics
Summary
journal-article
Adam McKenzie
About
I am a Royal Commission for the Exhibition of 1851 Research Fellow in the James Watt School of Engineering. My research interests are in the epitaxial growth of III-V semiconductors for photonics applications, having completed my PhD on MOVPE regrowth and nanostructure engineering in photonic crystal surface emitting lasers (PCSELs). My PhD research, which was funded by an 1851 Industrial Fellowship, was conducted alongside a senior engineering role at Sivers Photonics, after which I was a KTP Associate with Vector Photonics, in partnership with the University of Glasgow. Before my current role, I also held a JSPS Summer Fellowship at the University of Tokyo.
Work
University of Glasgow
|1851 Research Fellow
United Kingdom of Great Britain and Northern Ireland
→
University of Glasgow
|Research Associate
United Kingdom of Great Britain and Northern Ireland
→
University of Glasgow
|KTP Associate
United Kingdom of Great Britain and Northern Ireland
→
Sivers Photonics
|MOCVD Engineer (Industrial Fellow)
United Kingdom of Great Britain and Northern Ireland
→
Education
University of Glasgow
United Kingdom of Great Britain and Northern Ireland
→
PhD in Electronics and Electrical Engineering
University of Glasgow
United Kingdom of Great Britain and Northern Ireland
→
MSci in Chemical Physics
Publications
Epitaxially regrown quantum dot photonic crystal surface emitting lasers
Published by
Applied Physics Letters
Summary
journal-article
Small signal modulation of photonic crystal surface emitting lasers
Published by
Scientific Reports
Summary
journal-article
Large-area 2D selective area growth for photonic crystal surface emitting lasers
Published by
Journal of Crystal Growth
Summary
journal-article
Kinetic influences on void formation in epitaxially regrown GaAs-Based PCSELs
Published by
Journal of Crystal Growth
Summary
journal-article
Comparative analysis of void-containing and all-semiconductor 1.5 µm InP-based photonic crystal surface-emitting laser diodes
Published by
AIP Advances
Summary
journal-article
Comparative analysis of void-containing and all-semiconductor 1.5 µm InP-based photonic crystal surface-emitting laser diodes
Published by
AIP Advances
Summary
journal-article
Void engineering in epitaxially regrown GaAs-based photonic crystal surface emitting lasers by grating profile design
Published by
Applied Physics Letters
Summary
journal-article
Void engineering in epitaxially regrown GaAs-based photonic crystal surface emitting lasers by grating profile design
Published by
Applied Physics Letters
Summary
journal-article
Void engineering in epitaxially regrown GaAs-based photonic crystal surface emitting lasers by grating profile design
Published by
Applied Physics Letters
Summary
journal-article
Coherent power scaling in photonic crystal surface emitting laser arrays
Published by
AIP Advances
Summary
journal-article
Coherent power scaling in photonic crystal surface emitting laser arrays
Published by
AIP Advances
Summary
journal-article
Coherent power scaling in photonic crystal surface emitting laser arrays
Published by
AIP Advances
Summary
journal-article
1.5 μm Epitaxially Regrown Photonic Crystal Surface Emitting Laser Diode
Published by
IEEE Photonics Technology Letters
Summary
journal-article
1.5 μm Epitaxially Regrown Photonic Crystal Surface Emitting Laser Diode
Published by
IEEE Photonics Technology Letters
Summary
journal-article
1.5 μm Epitaxially Regrown Photonic Crystal Surface Emitting Laser Diode
Published by
IEEE Photonics Technology Letters
Summary
journal-article
Selective phase growth and precise-layer control in MoTe2
Published by
Communications Materials
Summary
journal-article