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1.
Analysis of surface plasmon mediated light emitting diode efficiency enhancement
by Holmstedt, Jason, M.S.E.E.  California State University, Long Beach. 2010: 72 pages; 1493028.
2.
Nanoscale eengineering of infrared plasmons in graphene
by Deng, Haiming, M.A.  State University of New York at Stony Brook. 2016: 64 pages; 10140633.
3.
Probing Luttinger Liquid Plasmons in Single Walled Carbon Nanotubes
by Wang, Sheng, Ph.D.  University of California, Berkeley. 2020: 67 pages; 27997601.
5.
Surface-plasmon-enhanced photoconversion in organic photovoltaics
by Morfa, Anthony John, Ph.D.  University of Colorado at Boulder. 2009: 162 pages; 3354543.
6.
Polarization control of plasmonic modes in single nanoparticles and nanostructures
by Damato, Ralph, M.S.  California State University, Long Beach. 2013: 70 pages; 1527542.
7.
The Nanoscale Optical Properties of Complex Nanostructures
by Hachtel, Jordan Adam, Ph.D.  Vanderbilt University. 2016: 179 pages; 13834896.
8.
Discrete Metal-Semiconductor Nanoparticle Assemblies for Controlled Plasmon-Exciton Coupling
by Leng, Haixu, Ph.D.  University of Maryland, Baltimore County. 2018: 212 pages; 13425419.
9.
Near-field optical investigation of vanadium dioxide thin films
by Torrico, Raul, M.S.  California State University, Long Beach. 2014: 60 pages; 1591618.
10.
Plasmon Spectrum of Twisted Bilayer Graphene
by Werner, Nicholas Alexander, M.S.  California State University, Long Beach. 2021: 65 pages; 28314516.
11.
The dielectric function and plasmons in graphene
by Sadeghi, Hamed, M.S.  California State University, Long Beach. 2013: 81 pages; 1527413.
12.
Optimization of the bowtie gap geometry for a maximum electric field enhancement
by Byambadorj, Tsenguun, M.S.  Marquette University. 2016: 90 pages; 10242847.
13.
Optical Properties of Plasmonic Nanostructures for Bio-Imaging and Bio-Sensing Applications
by Kravets, Vira V., Ph.D.  University of Colorado at Colorado Springs. 2017: 106 pages; 10282081.
15.
Spectroscopic enhancement from noble mettalic nanoparticles
by Tsai, Shu-Ju, Ph.D.  University of Maryland, College Park. 2011: 176 pages; 3461424.
16.
Manipulation and detection of atoms using plasmon-enhanced evanescent waves over dielectric waveguides
by Yik, Johnathan, Ph.D.  National University of Singapore (Singapore). 2015: 139 pages; 10006115.
17.
Near-field investigations of localized surface plasmon resonances in gold nanospheres and plasmonic nanoantennas
by Heiberg, Bryan Dale, M.S.  California State University, Long Beach. 2011: 65 pages; 1504473.
18.
Localized Photoemission in Triangular Gold Antennas
by Scheffler, Christopher M., M.S.  Portland State University. 2019: 95 pages; 13808008.
19.
Design of a plasmonic Bragg reflector cavity
by Pokhrel, Shiva Prasad, M.S.  University of Massachusetts Boston. 2015: 50 pages; 1599250.
21.
Orientational and quantum plasmonic effects in the optics of metal nanoparticles
by Shah, Raman Anand, Ph.D.  The University of Chicago. 2014: 173 pages; 3638691.
23.
24.
Polarimetric Properties of Optically Resonant Nanostructures
by Theisen, Michael John, Ph.D.  University of Rochester. 2015: 172 pages; 3686567.
25.
Surface Optomechanics: Forward and Backward Scattered Surface Acoustic Waves in Silica Microsphere
by Zehnpfennig, John D., II, M.S.E.  University of Michigan. 2011: 64 pages; 1496248.
26.
Shape Controlled Plasmonic Nanostructures for Light Harvesting Applications
by Erwin, William R., Ph.D.  Vanderbilt University. 2017: 168 pages; 10753383.
27.
Surface Acoustic Wave Velocity Measurements on Surface-Treated Metals by Laser-Ultrasonic Spectroscopy
by Marines, Alberto Ruiz, Ph.D.  University of Cincinnati. 2004: 151 pages; 10857201.
28.
30.
Study of a Model α-Helix Peptide's Surface Properties by Langmuir Monolayer Techniques and Surface FTIR
by Combs, J. Dale, M.S.  Middle Tennessee State University. 2016: 59 pages; 10146886.
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