Theoretical Nanophotonics at Rice University





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.

 


 NEWS:  


Dec. 28  -  ACS Nano (Just Accepted 2017)  "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. (Just Accepted 2017)  "Aluminum Nanorods" B. Clark, C. R. Jacobson, M. Lou, J. Yang, L. Zhou, S. Gottheim, C. J. Desantis, P. Nordlander, and N. J. Halas

Dec. 8  -  ACS Photonics (Just Accepted 2017)  Relaxation of Plasmon-Induced Hot Carriers" J. Liu, H. Zhang, S. Link, and P. Nordlander

Oct. 16  -  PNAS, vol. 11, no. 44, 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

Oct 3  -  J. Phys. Chem. C (Just Accepted 2017)  "Environmental Symmetry Breaking Promotes Plasmon Mode Splitting in Gold Nanotriangles" K. W. Smith, J. Yang, T. M. Hernandez, D. F. Swearer, L. Scarabelli, H. Zhang, H. Zhao, N. A. Moringo, W.-S. Chang, L. M. Liz-Marzan, E. Ringe, P. Nordlander, and S. Link









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