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Koray Aydin

from Wilmette, IL
Age ~45
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Related to:
Elif Aydin
Connected to:
Alicia C Aydin, 65Aynur Aydin, 55Cahit Aydin, 80Dursun Aydin, 69Engin Aydin, 47Ertan Aydin, 50Ertugrul Aydin, 49Feray F Aydin, 34Fulya Aydin, 44Gulten Aydin, 68

Koray Aydin Phones & Addresses

  • 3027 Hill St, Wilmette, IL 60091
  • Skokie, IL
  • Pasadena, CA

Resumes

Resumes

Koray Aydin Photo 1

Koray Aydin

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Koray Aydin Photo 2

Assistant Professor At Northwestern University

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Position:
Assistant Professor at Northwestern University
Location:
Evanston, Illinois
Industry:
Higher Education
Work:
Northwestern University - Evanston, Illinois since Sep 2011
Assistant Professor
California Institute of Technology Jan 2011 - Aug 2011
Research Scientist
DOE Light-Material Interactions EFRC - Pasadena, CA Jan 2011 - Aug 2011
Assistant Director
California Institute of Technology Jul 2008 - Jan 2011
Postdoctoral Researcher
Bilkent University Sep 2002 - Jun 2008
Graduate Student
Education:
Bilkent University 2002 - 2008
Ph.D, Physics Bilkent University 1998 - 2002
B.S, Physics
Skills:
Nanophotonics
Metamaterials
Plasmonics
Photonics
Electromagnetic Simulation
Electron Beam Lithography
Nanofabrication
Photovoltaics
Biosensors
Photonic Crystals
Spectroscopy
Optoelectronics
Nanomaterials
Interests:
Photovoltaics, Nanophotonics, Metamaterials, Plasmonics, Nanooptics, Biosensors
Honor & Awards:
2007 SPIE Educational Scholarship
Languages:
Turkish
English
Awards:
Associate Member
Turkish Academy of Sciences
Associate Member of the Turkish Academy of Sciences (TUBA) Turkiye Bilimler Akademisi (TUBA) Asosiye Uyesi

Publications

Us Patents

Tunable Compliant Optical Metamaterial Structures

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US Patent:
20120154793, Jun 21, 2012
Filed:
Sep 21, 2011
Appl. No.:
13/200273
Inventors:
Imogen Pryce - Santa Monica CA, US
Koray Aydin - Skokie IL, US
Ryan Briggs - Pasadena CA, US
Harry A. Atwater - South Pasadena CA, US
International Classification:
G01J 3/42
G01N 21/41
B32B 3/10
US Classification:
356 51, 428201, 356128
Abstract:
A tunable metamaterial structure, comprises a flexible substrate capable of being strained, a metamaterial pattern on a surface of the flexible substrate, and a metal layer on the metamaterial pattern. The flexible substrate of the tunable metamaterial structure is a strained and relaxed substrate which has been strained to a degree sufficient to register a resonant response upon relaxation that is shifted relative to the resonant response of the flexible substrate prior to being strained. The application of strain to the flexible substrate of the metamaterial structure enables tuning of the resonant frequency.
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Koray Aydin from Wilmette, IL, age ~45 Get Report