Dr Neil Gerrard

  • Affiliate (School of Engineering)

Publications

List by: Type | Date

Jump to: 2024 | 2023 | 2021 | 2020 | 2019
Number of items: 8.

2024

Bian, Z. et al. (2024) Resonator embedded photonic crystal surface emitting lasers. npj Nanophotonics, 1, 13. (doi: 10.1038/s44310-024-00014-9)

2023

Zhao, X., McKenzie, A. , Munro, C. W., Hill, K. J., Kim, D. , Bayliss, S. L. , Gerrard, N. D., MacLaren, D. A. and Hogg, R. A. (2023) Large-area 2D selective area growth for photonic crystal surface emitting lasers. Journal of Crystal Growth, 603, 127036. (doi: 10.1016/j.jcrysgro.2022.127036)

McKenzie, A. F. , Kyaw, A. M., Gerrard, N. D., MacLaren, D. A. and Hogg, R. A. (2023) Kinetic influences on void formation in epitaxially regrown GaAs-based PCSELs. Journal of Crystal Growth, 602, 126969. (doi: 10.1016/j.jcrysgro.2022.126969)

2021

Bian, Z. et al. (2021) Comparative analysis of void-containing and all-semiconductor 1.5 μm InP-based photonic crystal surface-emitting laser diodes. AIP Advances, 11(6), 065315. (doi: 10.1063/5.0053535)

McKenzie, A. F. et al. (2021) Void engineering in epitaxially regrown GaAs-based photonic crystal surface emitting lasers by grating profile design. Applied Physics Letters, 118(2), 021109. (doi: 10.1063/5.0035038)

King, B. C. et al. (2021) Coherent power scaling in photonic crystal surface emitting laser arrays. AIP Advances, 11(1), 015017. (doi: 10.1063/5.0031158)

2020

Bian, Z. et al. (2020) 1.5 μm epitaxially regrown photonic crystal surface emitting laser diode. IEEE Photonics Technology Letters, 32(24), pp. 1531-1534. (doi: 10.1109/LPT.2020.3039059)

2019

Di Gaetano, E. et al. (2019) High-powEr Phosphorous-based DFB Lasers for Cold Atom Systems (HELCATS). ICT Devices at the University of Glasgow, Glasgow, UK, 22 Feb 2019.

This list was generated on Sun Dec 22 15:13:56 2024 GMT.
Number of items: 8.

Articles

Bian, Z. et al. (2024) Resonator embedded photonic crystal surface emitting lasers. npj Nanophotonics, 1, 13. (doi: 10.1038/s44310-024-00014-9)

Zhao, X., McKenzie, A. , Munro, C. W., Hill, K. J., Kim, D. , Bayliss, S. L. , Gerrard, N. D., MacLaren, D. A. and Hogg, R. A. (2023) Large-area 2D selective area growth for photonic crystal surface emitting lasers. Journal of Crystal Growth, 603, 127036. (doi: 10.1016/j.jcrysgro.2022.127036)

McKenzie, A. F. , Kyaw, A. M., Gerrard, N. D., MacLaren, D. A. and Hogg, R. A. (2023) Kinetic influences on void formation in epitaxially regrown GaAs-based PCSELs. Journal of Crystal Growth, 602, 126969. (doi: 10.1016/j.jcrysgro.2022.126969)

Bian, Z. et al. (2021) Comparative analysis of void-containing and all-semiconductor 1.5 μm InP-based photonic crystal surface-emitting laser diodes. AIP Advances, 11(6), 065315. (doi: 10.1063/5.0053535)

McKenzie, A. F. et al. (2021) Void engineering in epitaxially regrown GaAs-based photonic crystal surface emitting lasers by grating profile design. Applied Physics Letters, 118(2), 021109. (doi: 10.1063/5.0035038)

King, B. C. et al. (2021) Coherent power scaling in photonic crystal surface emitting laser arrays. AIP Advances, 11(1), 015017. (doi: 10.1063/5.0031158)

Bian, Z. et al. (2020) 1.5 μm epitaxially regrown photonic crystal surface emitting laser diode. IEEE Photonics Technology Letters, 32(24), pp. 1531-1534. (doi: 10.1109/LPT.2020.3039059)

Conference or Workshop Item

Di Gaetano, E. et al. (2019) High-powEr Phosphorous-based DFB Lasers for Cold Atom Systems (HELCATS). ICT Devices at the University of Glasgow, Glasgow, UK, 22 Feb 2019.

This list was generated on Sun Dec 22 15:13:56 2024 GMT.