T
Teri W. Odom
Researcher at Northwestern University
Publications - 304
Citations - 21120
Teri W. Odom is an academic researcher from Northwestern University. The author has contributed to research in topics: Plasmon & Racism. The author has an hindex of 63, co-authored 287 publications receiving 18664 citations. Previous affiliations of Teri W. Odom include Duke University & Northwest University (United States).
Papers
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Journal ArticleDOI
Quasiperiodic moiré plasmonic crystals.
TL;DR: This paper developed a Bragg-based indexing system using the reciprocal lattice vectors of the moiré plasmonic crystals, and showed that even more complicated quasiperiodic geometries could also be described by this indexing model.
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Millimeter-Scale Spatial Coherence from a Plasmon Laser.
Thang B. Hoang,Gleb M. Akselrod,Ankun Yang,Ankun Yang,Teri W. Odom,Teri W. Odom,Maiken H. Mikkelsen +6 more
TL;DR: This plasmonic lasing system provides a platform for understanding the emergence of long-range coherence from collections of nanoscale resonators and points toward novel types of distributed lasing sources.
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Plasmonic–Photonic Mode Coupling in Indium-Tin-Oxide Nanorod Arrays
Shiqiang Li,Peijun Guo,D. Bruce Buchholz,Wei Zhou,Yi Hua,Teri W. Odom,John B Ketterson,Leonidas E. Ocola,Kazuaki Sakoda,Robert P. H. Chang +9 more
TL;DR: In this article, the authors present a systematic study of light scattering from indium-tin-oxide (ITO) nanorods in the near-infrared with a special focus on the resonant coupling of plasmonic transverse mode and photonic modes in 2-D periodic arrays.
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Benchtop Nanoscale Patterning Using Soft Lithography
TL;DR: In this paper, the authors outline several benchtop nanoscale patterning experiments that can be incorporated into undergraduate laboratories or advanced high school chemistry curricula, supplemented by an online video lab manual, are based on soft lithographic techniques such as replica molding, micro-molding in capillaries, and microcontact printing and etching.
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Polarization-Dependent Lasing Behavior from Low-Symmetry Nanocavity Arrays
TL;DR: The lasing behavior revealed that plasmon-exciton energy transfer depends on polarization, with stronger coupling and faster dynamics when the transition dipole moments of the excited gain are aligned with the electric field of the plAsmon modes.