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Alan D. Logan
Alan D. Logan
Graduate Student, Electrical and Computer Engineering, University of Washington
Bestätigte E-Mail-Adresse bei uw.edu
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Zitiert von
Zitiert von
Jahr
400%/W second harmonic conversion efficiency in 14 μm-diameter gallium phosphide-on-oxide resonators
AD Logan, M Gould, ER Schmidgall, K Hestroffer, Z Lin, W Jin, ...
Optics Express 26 (26), 33687-33699, 2018
602018
Precise electron beam-based target-wavelength trimming for frequency conversion in integrated photonic resonators
L Thiel, AD Logan, S Chakravarthi, S Shree, K Hestroffer, F Hatami, ...
Optics Express 30 (5), 6921-6933, 2022
102022
Triply-resonant sum frequency conversion with gallium phosphide ring resonators
AD Logan, S Shree, S Chakravarthi, N Yama, C Pederson, K Hestroffer, ...
Optics Express 31 (2), 1516-1531, 2023
92023
Target-wavelength-trimmed second harmonic generation with gallium phosphide-on-nitride ring resonators
L Thiel, AD Logan, S Chakravarthi, S Shree, K Hestroffer, F Hatami, ...
arXiv preprint arXiv:2110.03612, 2021
12021
Triply-Resonant Sum-Frequency Generation in 10 µm Gallium Phosphide Photonic Ring Resonators
AD Logan, S Shree, K Hestroffer, F Hatami, KMC Fu
Frontiers in Optics, FM1B. 8, 2021
2021
High Efficiency Second Harmonic Generation in Gallium Phosphide Ring Resonators on Oxide
AD Logan, M Gould, ER Schmidgall, K Hestroffer, Z Lin, W Jin, ...
CLEO: Science and Innovations, SF1H. 7, 2019
2019
400%/W second harmonic conversion efficiency in -diameter gallium phosphide-on-oxide resonators
AD Logan, M Gould, ER Schmidgall, K Hestroffer, Z Lin, W Jin, ...
arXiv preprint arXiv:1810.06393, 2018
2018
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