Illinois 2009 nano-biophotonics Summer School, Lecture 21: Optimal design of advanced plasmonic materials for nano-optics
Licensed according to this deed.
Recommendations
- Illinois 2009 nano-biophotonics Summer School, Lecture 11: Plasmonics, Metamaterials
- Illinois 2009 nano-biophotonics Summer School, Lecture 2: Optics, Microscopy
- Illinois 2009 nano-biophotonics Summer School, Lecture 4: Dynamic Light Scattering
- Illinois 2009 nano-biophotonics Summer School, Lecture 16: Functional DNA Nanotechnology in Sensing and Imaging
- Illinois 2009 nano-biophotonics Summer School, Lecture 18: Bond-Selective Imaging based on Coherent Raman Scattering
- Illinois 2009 nano-biophotonics Summer School, Lecture 1: Optics, Introduction and Fundamentals
- Computational Nanoscience, Lecture 4: Geometry Optimization and Seeing What You're Doing
- Illinois 2009 nano-biophotonics Summer School, Lecture 3: Elastic Light Scattering
Category
Published on
Abstract
Infrared spectroscopic imaging: an integrative approach to pathology
Topics:
- Introduction: Surface Plasmons
- Computational Optics: numerical integration of Maxwell equations
- Computational Optics: Finite-Difference Time-Domain method
- Phase-polarization control: control of plasmons via coherence of lasers
- Light trapping and funneling: plasmon assisted absorption of light
- Optics of nanoparticles with no center of inversion symmetry
- Optimal design of plasmonic materials
- Perfect coupling of light to SPP waves
- Nonlinear plasmonics
- Current research projects: Surface-enhanced Raman spectroscopy
Submitter
University of Illinois at Urbana-Champaign
Cite this work
Researchers should cite this work as follows:
-
Nick Fang; Omar N Sobh (2010), "Illinois 2009 nano-biophotonics Summer School, Lecture 21: Optimal design of advanced plasmonic materials for nano-optics," https://nanohub.org/resources/7735.