Theoretical Nanophotonics at Rice University
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We are a theoretical group leading research in the field of
nanophotonics and plasmonics. We use a wide range of numerical methods
(FDTD, FEM, BEM, DDA, Mie, TDDFT) to investigate the optical properties of
metallic, semiconductor, and graphene nanostructures, plasmonic, excitonic, and hybrid
systems.
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NEWS:
Feb. 21 - Nano Lett., 2018, 18(3), pp 2040-2046 "Wavelength-Dependent Optical Force Imaging of Bimetallic Al-Au Heterodimers" T. Tumkur, X. Yang, C. Zhang, J. Yang, Y. Zhang, G. V. Naik, P. Nordlander, and N. J. Halas
Dec. 28 - ACS Nano 2018, 12(2), pp 976-985 "Photoluminescence of Gold Nanorods: Purcell Effect Enhanced Emission from Hot Carriers" Y-Y. Cai, J. G. Liu, L. J. Tauzin, D. Huang, E. Sung, H. Zhang, A. Joplin, W-S. Chang, P. Nordlander, and S. Link
Dec. 22 - Nano Lett., 2018, 18(2), pp 1234-1240 "Aluminum Nanorods" B. Clark, C. R. Jacobson, M. Lou, J. Yang, L. Zhou, S. Gottheim, C. J. Desantis, P. Nordlander, and N. J. Halas
Oct. 16 - PNAS, vol. 11, no. 44, pp 11621-11626 "Vibrational Coupling in Plasmonic Molecules" C. Yi, P. D. Dongare, M-N. Su, W. Wang, D. Chakraborty, F. Wen, W-S. Chang, J. E. Sader, P. Nordlander, N. J. Halas, and S. Link
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