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APPLIED PHYSICS LETTERS 95, 201114 共2009兲 Surface-plasmon mode hybridization in subwavelength microdisk lasers R. Perahia,a兲 T. P. Mayer Alegre, A. H. Safavi-Naeini, and O. Painterb兲 Thomas J. Watson, Sr., Labor
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Document Date: 2010-05-10 13:21:23

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City

Pasadena / London / /

Company

Ge / Rm/Rd Ag / E. S. P. / /

Country

United States / /

Currency

USD / /

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Facility

American Institute of Physics Downloaded / Laboratory of Applied Physics / gallery SP / California Institute of Technology / Kavli Nanoscience Institute / American Institute of Physics / /

IndustryTerm

metal / laser devices / large metal coverage / metal layer / metal coated microdisk cavities / increased metal coverage / metal contacts / surface-plasmon metal layer / device processing / metal radius fraction / final device / carrier density / silver metal radial fraction / patterned metal layer / metal contact / metal coverage / metal-to-disk ratio / metal contact layer / centered metal contact / imaging / microdisk device / removed allowing for SEM imaging / /

MarketIndex

nm thick semiconductor disk with / /

OperatingSystem

NACHOS / /

Organization

California Institute of Technology / American Institute of Physics / Laboratory of Applied Physics / Kavli Nanoscience Institute / /

Person

Thomas J. Watson / Sr. / E. Ostby / V / J. Chen / R. K. Lee / K. Srinivasan / Nat / S. J. Choi / Jianxin Chen / A. Scherer / A. Y. Cho / Appl / /

Position

O. Painter / /

ProvinceOrState

California / /

PublishedMedium

APPLIED PHYSICS LETTERS / /

Technology

semiconductor / laser / lasers / hybridization / dielectric / spectroscopy / lithography / Simulation / optical fiber / /

URL

http /

SocialTag