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Vaishno Dasika
Vaishno Dasika
University of Michigan, University of Texas
Bestätigte E-Mail-Adresse bei austin.utexas.edu - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Design and analysis of photonic crystal coupled cavity arrays for quantum simulation
A Majumdar, A Rundquist, M Bajcsy, VD Dasika, SR Bank, J Vučković
Physical Review B 86 (19), 195312, 2012
1092012
Growth and characterization of LuAs films and nanostructures
EM Krivoy, HP Nair, AM Crook, S Rahimi, SJ Maddox, R Salas, DA Ferrer, ...
Applied Physics Letters 101 (14), 2012
322012
Growth and properties of rare-earth arsenide InGaAs nanocomposites for terahertz generation
R Salas, S Guchhait, SD Sifferman, KM McNicholas, VD Dasika, ...
Applied Physics Letters 106 (8), 2015
282015
Influence of alloy buffer and capping layers on InAs/GaAs quantum dot formation
VD Dasika, JD Song, WJ Choi, NK Cho, JI Lee, RS Goldman
Applied Physics Letters 95 (16), 2009
282009
Increased InAs quantum dot size and density using bismuth as a surfactant
VD Dasika, EM Krivoy, HP Nair, SJ Maddox, KW Park, D Jung, ML Lee, ...
Applied Physics Letters 105 (25), 2014
232014
Growth and characterization of single crystal rocksalt LaAs using LuAs barrier layers
EM Krivoy, S Rahimi, HP Nair, R Salas, SJ Maddox, DJ Ironside, Y Jiang, ...
Applied Physics Letters 101 (22), 2012
182012
Nanometer-scale studies of point defect distributions in GaMnAs alloys
JN Gleason, ME Hjelmstad, VD Dasika, RS Goldman, S Fathpour, ...
Applied Physics Letters 86 (1), 2005
182005
Nanometer-scale measurements of electronic states in InAs∕ GaAs quantum dots
VD Dasika, RS Goldman, JD Song, WJ Choi, NK Cho, JI Lee
Journal of Applied Physics 106 (1), 2009
152009
Moments-based tight-binding calculations of local electronic structure in InAs/GaAs quantum dots for comparison to experimental measurements
JQ Lu, HT Johnson, VD Dasika, RS Goldman
Applied physics letters 88 (5), 2006
132006
Surfactant-assisted growth and properties of rare-earth arsenide InGaAs nanocomposites for terahertz generation
R Salas, S Guchhait, KM McNicholas, SD Sifferman, VD Dasika, D Jung, ...
Applied Physics Letters 108 (18), 2016
112016
Minimized open-circuit voltage reduction in GaAs/InGaAs quantum well solar cells with bandgap-engineered graded quantum well depths
X Li, VD Dasika, PC Li, L Ji, SR Bank, ET Yu
Applied Physics Letters 105 (12), 2014
112014
Correlating structure, strain, and morphology of self-assembled InAs quantum dots on GaAs
DP Kumah, JH Wu, NS Husseini, VD Dasika, RS Goldman, Y Yacoby, ...
Applied Physics Letters 98 (2), 2011
112011
Growth rate and surfactant-assisted enhancements of rare-earth arsenide InGaAs nanocomposites for terahertz generation
R Salas, S Guchhait, SD Sifferman, KM McNicholas, VD Dasika, D Jung, ...
APL Materials 5 (9), 2017
82017
Conductivity and structure of ErAs nanoparticles embedded in GaAs pn junctions analyzed via conductive atomic force microscopy
KW Park, VD Dasika, HP Nair, AM Crook, SR Bank, ET Yu
Applied Physics Letters 100 (23), 2012
82012
Influence of Mn dopants on InAs/GaAs quantum dot electronic states
VD Dasika, AV Semichaevsky, JP Petropoulos, JC Dibbern, ...
Applied Physics Letters 98 (14), 2011
72011
Tunable, epitaxial, semimetallic films for plasmonics
EM Krivoy, A Vasudev, HP Nair, VD Dasika, R Synowicki, R Salas, ...
CLEO: 2013, 1-2, 2013
22013
Molecular Beam Epitaxy Growth-Space Investigation of InAsBi and InGaAsBi on InAs
SJ Maddox, HP Nair, VD Dasika, EM Krivoy, R Salas, SR Bank
International Symposium on Compound Semiconductors (ISCS), 2012
22012
InAs quantum dot growth using bismuth as a surfactant for optoelectronic applications
VD Dasika, EM Krivoy, HP Nair, SJ Maddox, KW Park, D Jung, ML Lee, ...
CLEO: Science and Innovations, CF1I. 2, 2013
12013
Bismuth Surfactant-Mediated Epitaxy of Highly Doped InAs for Mid-Infrared Plasmonics
SJ Maddox, AP Vasudev, VD Dasika, ML Brongersma, SR Bank
North American Molecular Beam Epitaxy Conf.(NAMBE), 0
1
Methods of forming semiconductor power devices having graded lateral doping
P Steinmann, E Van Brunt, JH Park, V Dasika
US Patent 11,721,755, 2023
2023
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