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Adam Scofield
Adam Scofield
Rockley Photonics
Verified email at rockleyphotonics.com
Title
Cited by
Cited by
Year
GaAs nanopillar-array solar cells employing in situ surface passivation
G Mariani, AC Scofield, CH Hung, DL Huffaker
Nature communications 4 (1), 1497, 2013
2882013
Bottom-up photonic crystal lasers
AC Scofield, SH Kim, JN Shapiro, A Lin, B Liang, A Scherer, DL Huffaker
Nano letters 11 (12), 5387-5390, 2011
1522011
Direct-bandgap epitaxial core–multishell nanopillar photovoltaics featuring subwavelength optical concentrators
G Mariani, Z Zhou, A Scofield, DL Huffaker
Nano letters 13 (4), 1632-1637, 2013
982013
InGaAs heterostructure formation in catalyst-free GaAs nanopillars by selective-area metal-organic vapor phase epitaxy
JN Shapiro, A Lin, PS Wong, AC Scofield, C Tu, PN Senanayake, ...
Applied Physics Letters 97 (24), 2010
772010
Bottom-up photonic crystal cavities formed by patterned III–V nanopillars
AC Scofield, JN Shapiro, A Lin, AD Williams, PS Wong, BL Liang, ...
Nano letters 11 (6), 2242-2246, 2011
452011
Extracting transport parameters in GaAs nanopillars grown by selective-area epitaxy
A Lin, JN Shapiro, PN Senanayake, AC Scofield, PS Wong, B Liang, ...
Nanotechnology 23 (10), 105701, 2012
332012
Photoconductive gain in patterned nanopillar photodetector arrays
P Senanayake, A Lin, G Mariani, J Shapiro, C Tu, AC Scofield, PS Wong, ...
Applied Physics Letters 97 (20), 2010
292010
Enhanced InAs nanopillar electrical transport by in-situ passivation
A Lin, JN Shapiro, AC Scofield, BL Liang, DL Huffaker
Applied Physics Letters 102 (5), 2013
242013
3D nanopillar optical antenna photodetectors
P Senanayake, CH Hung, J Shapiro, A Scofield, A Lin, BS Williams, ...
Optics express 20 (23), 25489-25496, 2012
222012
Improved room-temperature luminescence of core-shell InGaAs/GaAs nanopillars via lattice-matched passivation
K Komolibus, AC Scofield, K Gradkowski, TJ Ochalski, H Kim, DL Huffaker, ...
Applied Physics Letters 108 (6), 2016
172016
Exploring time-resolved photoluminescence for nanowires using a three-dimensional computational transient model
D Ren, AC Scofield, AC Farrell, Z Rong, MA Haddad, RB Laghumavarapu, ...
Nanoscale 10 (16), 7792-7802, 2018
162018
The effect of the gate-connected field plate on single-event transients in AlGaN/GaN Schottky-gate HEMTs
A Khachatrian, S Buchner, A Koehler, C Affouda, D McMorrow, ...
IEEE Transactions on Nuclear Science 66 (7), 1682-1687, 2019
152019
Nanopillar photonic crystal lasers
AC Scofield, D Huffaker
US Patent 9,130,347, 2015
142015
Harnessing plasma absorption in silicon MOS ring modulators
W Zhang, M Ebert, K Li, B Chen, X Yan, H Du, M Banakar, DT Tran, ...
Nature Photonics 17 (3), 273-279, 2023
132023
Self-aligned active quantum nanostructures in photonic crystals via selective wet-chemical etching
DY Oh, SH Kim, J Huang, A Scofield, D Huffaker, A Scherer
Nanotechnology 24 (26), 265201, 2013
132013
Composite axial/core-shell nanopillar light-emitting diodes at 1.3 μm
AC Scofield, A Lin, JN Shapiro, PN Senanayake, G Mariani, M Haddad, ...
Applied Physics Letters 101 (5), 2012
132012
Recent results using laser speckle in multimode waveguides for random projections
AC Scofield, GA Sefler, TJ Shaw, GC Valley
Optical Data Science II 10937, 17-24, 2019
112019
Axial diffusion barriers in near-infrared nanopillar LEDs
AC Scofield, A Lin, M Haddad, DL Huffaker
Nano letters 14 (11), 6037-6041, 2014
112014
Reservoir computing operations using multi-mode photonic integrated circuits
AC Scofield, TJ Shaw, GC Valley
US Patent 10,627,849, 2020
52020
Room temperature continuous wave lasing in nanopillar photonic crystal cavities
AC Scofield, SH Kim, JN Shapiro, A Lin, BL Liang, A Scherer, DL Huffaker
CLEO: Science and Innovations, CTh4M. 2, 2012
42012
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