Pang, Lin Ultrafast and Nanoscale Optics Group, Department of Electrical and Computer Engineering, University of California, San Diego, California.
Fainman, Yeshaiahu S. Ultrafast and Nanoscale Optics Group, Department of Electrical and Computer Engineering, University of California, San Diego, La Jolla, California.
- Links to Primary Literature
- Additional Readings
Plasmonics, the study of optical resonance in metallic nanostructures, was unknowingly used hundreds of years ago by alchemists and glassmakers to make stained-glass windows and colorful goblets that incorporated various small metallic particles into the glass. The various colors exhibited in the glass matrix are the result of the nanometallic particles in the glass scattering different wavelengths of light. How the light is scattered depends on the size and shape of the particles because of the plasmonic resonance of a metal, which is generated by the collective movement of free electrons in response to incident light waves. One form of the excited plasmons, called the localized surface plasmon resonance, depends strongly on the nanoscale size, shape, and specific metal material. A consequence of this resonance is that the local electric field is enhanced by several orders of magnitude compared to the electric field associated with the incident optical field. Another form of the plasmonic resonance is generated at the surface of a metallic film: The excited collective oscillations of the free electrons follow the momentum of the incident wave traveling on the metallic surface, called the propagating surface plasmon resonance.
The content above is only an excerpt.
for your institution. Subscribe
To learn more about subscribing to AccessScience, or to request a no-risk trial of this award-winning scientific reference for your institution, fill in your information and a member of our Sales Team will contact you as soon as possible.
to your librarian. Recommend
Let your librarian know about the award-winning gateway to the most trustworthy and accurate scientific information.
AccessScience provides the most accurate and trustworthy scientific information available.
Recognized as an award-winning gateway to scientific knowledge, AccessScience is an amazing online resource that contains high-quality reference material written specifically for students. Its dedicated editorial team is led by Sagan Award winner John Rennie. Contributors include more than 9000 highly qualified scientists and 39 Nobel Prize winners.
MORE THAN 8500 articles and Research Reviews covering all major scientific disciplines and encompassing the McGraw-Hill Encyclopedia of Science & Technology and McGraw-Hill Yearbook of Science & Technology
115,000-PLUS definitions from the McGraw-Hill Dictionary of Scientific and Technical Terms
3000 biographies of notable scientific figures
MORE THAN 17,000 downloadable images and animations illustrating key topics
ENGAGING VIDEOS highlighting the life and work of award-winning scientists
SUGGESTIONS FOR FURTHER STUDY and additional readings to guide students to deeper understanding and research
LINKS TO CITABLE LITERATURE help students expand their knowledge using primary sources of information