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Daniel Wasserman
Daniel Wasserman
Professor of Electrical and Computer Engineering, University of Texas Austin
Verified email at utexas.edu - Homepage
Title
Cited by
Cited by
Year
Negative refraction in semiconductor metamaterials
AJ Hoffman, L Alekseyev, SS Howard, KJ Franz, D Wasserman, ...
Nature materials 6 (12), 946-950, 2007
10322007
Fabrication of linewidth and pitch features by nanoimprint lithography
MD Austin, H Ge, W Wu, M Li, Z Yu, D Wasserman, SA Lyon, SY Chou
Applied Physics Letters 84 (26), 5299-5301, 2004
8172004
Fabrication of linewidth and pitch features by nanoimprint lithography
MD Austin, H Ge, W Wu, M Li, Z Yu, D Wasserman, SA Lyon, SY Chou
Applied Physics Letters 84 (26), 5299-5301, 2004
8172004
Strong absorption and selective thermal emission from a midinfrared metamaterial
JA Mason, S Smith, D Wasserman
Applied Physics Letters 98 (24), 2011
2832011
Review of mid-infrared plasmonic materials
Y Zhong, SD Malagari, T Hamilton, D Wasserman
Journal of Nanophotonics 9 (1), 093791-093791, 2015
2562015
Mid-infrared designer metals
S Law, DC Adams, AM Taylor, D Wasserman
Optics express 20 (11), 12155-12165, 2012
2412012
Towards nano-scale photonics with micro-scale photons: the opportunities and challenges of mid-infrared plasmonics
S Law, V Podolskiy, D Wasserman
Nanophotonics 2 (2), 103-130, 2013
2402013
All-semiconductor plasmonic nanoantennas for infrared sensing
S Law, L Yu, A Rosenberg, D Wasserman
Nano letters 13 (9), 4569-4574, 2013
2052013
6 nm half-pitch lines and 0.04 µm2 static random access memory patterns by nanoimprint lithography
MD Austin, W Zhang, H Ge, D Wasserman, SA Lyon, SY Chou
Nanotechnology 16 (8), 1058, 2005
2022005
Funneling light through a subwavelength aperture with epsilon-near-zero materials
DC Adams, S Inampudi, T Ribaudo, D Slocum, S Vangala, NA Kuhta, ...
Physical review letters 107 (13), 133901, 2011
1992011
Next-generation mid-infrared sources
D Jung, S Bank, ML Lee, D Wasserman
Journal of Optics 19 (12), 123001, 2017
1712017
Phonon-polaritonics: enabling powerful capabilities for infrared photonics
S Foteinopoulou, GCR Devarapu, GS Subramania, S Krishna, ...
Nanophotonics 8 (12), 2129-2175, 2019
1442019
Room-temperature continuous-wave quantum cascade lasers grown by MOCVD without lateral regrowth
Z Liu, D Wasserman, SS Howard, AJ Hoffman, CF Gmachl, X Wang, ...
IEEE Photonics Technology Letters 18 (12), 1347-1349, 2006
1362006
Strong absorption and selective emission from engineered metals with dielectric coatings
W Streyer, S Law, G Rooney, T Jacobs, D Wasserman
Optics express 21 (7), 9113-9122, 2013
1122013
Handbook of electroluminescent materials
DR Vij
CRC press, 2004
952004
Doped semiconductors with band-edge plasma frequencies
S Law, R Liu, D Wasserman
Journal of Vacuum Science & Technology B 32 (5), 2014
822014
Localized surface phonon polariton resonances in polar gallium nitride
K Feng, W Streyer, SM Islam, J Verma, D Jena, D Wasserman, ...
Applied Physics Letters 107 (8), 2015
712015
Epitaxial growth of engineered metals for mid-infrared plasmonics
S Law, L Yu, D Wasserman
Journal of Vacuum Science & Technology B 31 (3), 2013
712013
Strong coupling of molecular and mid-infrared perfect absorber resonances
JA Mason, G Allen, VA Podolskiy, D Wasserman
IEEE Photonics Technology Letters 24 (1), 31-33, 2011
712011
High-performance quantum cascade lasers: Optimized design through waveguide and thermal modeling
SS Howard, Z Liu, D Wasserman, AJ Hoffman, TS Ko, CF Gmachl
IEEE Journal of Selected Topics in Quantum Electronics 13 (5), 1054-1064, 2007
712007
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