Online Simulation

And More

Top 25 Tags (all tags)

  1. algorithms
  2. aqme
  3. carbon nanotubes
  4. course lecture
  5. cyberinfrastructure
  6. devices
  7. education/outreach
  8. experiments
  9. material science
  10. molecular electronics
  11. nano/bio
  12. nanobio applications
  13. nano electro-mechanical systems
  14. nanoelectronics
  15. nanomedicine
  16. nanophotonics
  17. nano-transistors
  18. nanowires
  19. NEGF
  20. quantum dots
  21. quantum transport
  22. research seminar
  23. transistors
  24. tutorial
  25. uIllinois

Other

Trouble Report

For immediate assistance browse through our support center. You can find answers to many questions in just a few minutes.

If still experiencing problems, send us a report.

Sending report ...

ECE 695s Nanophotonics

This resource has a 9.7 Ranking

Ranking is calculated from a formula comprised of user reviews and usage statistics. Learn more ›

Usage Stats
Last 12 Months: updated 01 Nov, 2008
Users: 5640
Reviews & Citations
Google/IEEE
Avg. Review: 4.5 out of 5 stars
Citations: 0

5640 users

3 reviews (Review this)

0 citations

Contributor(s) Vladimir M. Shalaev
Purdue University, West Lafayette
Abstract

Welcome to the ECE 695S lectures

The course will cover nanoscale processes and devices and their applications for manipulating light on the nanoscale. The following topics will be covered:

  • Fundamentals, Maxwell’s equations, light-matter interaction, dispersion, EM properties of nanostructures, etc.
  • Photonic crystals
  • Photonic crystal fibers
  • Photonic nanocircuits
  • Metal optics
  • Manipulating light with plasmonic nanostructures
  • Plasmonic nano-sensors
  • Near-field optics
  • Metamaterials, negative refractive index and super-resolution

Course Information Website

Cite this work

If you reference this work in a publication, please cite as follows:

  • Shalaev, Vladimir M. (2006), "ECE 695s Nanophotonics," http://www.nanohub.org/courses/nanophotonics.

    BibTex | EndNote

Date posted 31 Aug, 2006
Time Fall 2006, 9:00 am Tue-Thu
Location EE Building, Room 226
Type Courses
Tags
Lecture Number/Topic Breeze Video Lecture Notes (PDF) Supplemental Material Suggested Exercises
ECE 695s Introductory Lecture View View Notes
ECE 695s Lecture 1: Light Interaction with Matter-Review of Maxwell's Equations View View Notes
ECE 695s Lecture 2: Dispersion in Materials View View Notes
ECE 695s Lecture 3: Optical Properties of Insulators, Semiconductors and Metals View View Notes
ECE 695s Lecture 4: Electromagnetic Properties of Molecules, Nano- and Microscopic Particles View View Notes
ECE 695s Lecture 5: Photonic Crystals - Introduction View View Notes
ECE 695s Lecture 6: Basic Properties of Electromagnetic Effects in Periodic Media View View Notes
ECE 695s Lecture 7: Photonic Crystal Waveguides View View Notes
ECE 695s Lecture 8: Photonic Crystals Fibers View View Notes
ECE 695s Lecture 9: Introduction to Metal Optics View View Notes
ECE 695s Lecture 10: Surface Plasmon Excitation View View Notes
ECE 695s Lecture 11: Guiding Light Along Nanoparticle Arrays View View Notes
Nano Scale Optics with Nearfield Scanning Optical Microscopy (NSOM)
NearfieldScanning Optical Microscopy (NSOM )is a relatively new technology that defeats the diffraction limit for optical measurements by utilizing the near field portion of electromagnetism to window down to ~ 10 nm spatial resolution. NSOM instrumentation has progressively developed over the past 15 years, to the point where several different basic techniques are available as commercial instruments The principles of NSOM are very much in play within the research community. NSOM has many different applications ranging from biological studies to nanofabrication. This tutorial provides a basic introduction to NSOM.		 View View Notes
ECE 695s Lecture 14: Metamaterials: Giving Light the Second Hand, Part 1 View View Notes
ECE 695s Lecture 15: Metamaterials: Giving Light the Second Hand, Part 2 View View Notes

Citations

The following are publications that have cited this resource, separated by their affiliation to the NCN.

No citations found.

Reviews

The following are reviews of this resource from other site members.

Write a review

  1. 5.0 out of 5 stars 

    Posted on 28 March, 2007 by Anonymous

  2. 5.0 out of 5 stars 

    Posted on 14 January, 2007 by JING WU

    0   0   Login to vote Great course. I wish I have the opportunity to take this course.

    it helps me to understand lots of theories in periodic structure

    Thanks very much

    reply | report abuse

  3. 4.0 out of 5 stars 

    Posted on 19 December, 2006 by Ahmet Ali Yanik

See also

The following are resources that may cover similar or related topics.

People who looked at this also looked at:

Network Recommendations powered by CIKNOW developed by the Science of Networks in Communities Research (SONIC) group at Northwestern University.

Recommendations will load momentarily. If you do not see content change after 30 seconds, there may be a number of reasons:

  • You have javascript turned off in your browser.
  • You have browser incapable of handling the scripts that load the recommendations.
  • There is a problem with the recommendation service and it failed to respond.