Novel Ideas in Metamaterials

By Igor Smolyaninov

Electrical and Computer Engineering, University of Maryland, College Park, MD

View Presentation

Additional materials available (3)

Category

Online Presentations

Published on

Abstract

This talk is part of the International Workshop "Novel Ideas in Optics: From Advanced Materials to Revolutionary Applications" hosted by Purdue University.

Bio

Igor Smolyaninov Igor Smolyaninov is a Principal Electronic Engineer at BAE Systems. He received his Ph.D. from the Kapitza Institute for Physical Problems of the Russian Academy of Sciences. He has published 6 review articles and more than 80 journal papers in various areas of nanophotonics, low temperature physics, and optical wireless communication.

Sponsored by

Discovery Park

Cite this work

Researchers should cite this work as follows:

  • Igor Smolyaninov (2013), "Novel Ideas in Metamaterials," https://nanohub.org/resources/16170.

    BibTex | EndNote

Time

Location

Burton Morgan 121, Purdue University, West Lafayette, IN

Tags

  1. metamaterials
  2. nanophotonics
Novel Ideas in Metamaterials
  • Novel Ideas in Metamaterials 1. Novel Ideas in Metamaterials 0
    00:00/00:00
  • Outline 2. Outline 21.65498832165499
    00:00/00:00
  • Cloaking based on coordinate transformation 3. Cloaking based on coordinate t… 23.757090423757091
    00:00/00:00
  • Emulating metamaterial anisotropy by tapered waveguides 4. Emulating metamaterial anisotr… 51.851851851851855
    00:00/00:00
  • More intuitive picture of cloaking 5. More intuitive picture of cloa… 94.5945945945946
    00:00/00:00
  • Experimental geometry + cloak array extension 6. Experimental geometry + cloak … 120.38705372038706
    00:00/00:00
  • Potential applications and issues 7. Potential applications and iss… 151.48481815148483
    00:00/00:00
  • Experimental results 8. Experimental results 218.51851851851853
    00:00/00:00
  • Cloak imperfections 9. Cloak imperfections 250.18351685018354
    00:00/00:00
  • Moore’s law for invisibility cloaks 10. Moore’s law for invisibility… 270.7374040707374
    00:00/00:00
  • Real applications 11. Real applications 341.7751084417751
    00:00/00:00
  • Outline 12. Outline 395.1951951951952
    00:00/00:00
  • Vacuum as anisotropic superconductor 13. Vacuum as anisotropic supercon… 413.11311311311312
    00:00/00:00
  • Vacuum as a hyperbolic metamaterial 14. Vacuum as a hyperbolic metamat… 528.2282282282282
    00:00/00:00
  • 15. "Heavy photons" as experimenta… 542.47580914247578
    00:00/00:00
  • Outline 16. Outline 647.54754754754754
    00:00/00:00
  • Modeling of time with metamaterials 17. Modeling of time with metamate… 672.37237237237241
    00:00/00:00
  • 18. "Flat" Minkowski space: experi… 720.52052052052056
    00:00/00:00
  • Now let’s 19. Now let’s "bend" the Minkows… 727.76109442776112
    00:00/00:00
  • Toy Big Bang is easy to observe 20. Toy Big Bang is easy to observ… 737.47080413747085
    00:00/00:00
  • 21. "Cosmological" versus "statist… 766.232899566233
    00:00/00:00
  • Outline 22. Outline 796.73006339673009
    00:00/00:00
  • Hyperbolic metamaterial interfaces: very interesting physics 23. Hyperbolic metamaterial interf… 819.386052719386
    00:00/00:00
  • Field divergence at hyperbolic metamaterial interfaces 24. Field divergence at hyperbolic… 855.42208875542212
    00:00/00:00
  • Hyperbolic metamaterial interfaces: Minkowski domain walls 25. Hyperbolic metamaterial interf… 870.40373707040374
    00:00/00:00
  • Better 26. Better "quantum" electromagnet… 914.98164831498173
    00:00/00:00
  • 27. "Hawking radiation" from the "… 991.991991991992
    00:00/00:00
  • Experimental observation of the 28. Experimental observation of th… 997.3306639973307
    00:00/00:00
  • Conclusions 29. Conclusions 1000.900900900901
    00:00/00:00
Pop Out