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Kevin Daniel Heylman

from Hillsboro, OR
Age ~36
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Also known as:
Kevin D Heylman
Related to:
Susan R Heylman, 72Caroline Heylman, 39Paul Heylman, 72
Connected to:
David C Heylmun, 38Barbara J Heyman, 64Clifford A Heyman, 72Edward S Heyman, 102Elyse R Heyman, 42Isaac H Heyman, 33Karrell D Heyman, 66Mark Heyman, 53Melissa A Heyman, 55Peter C Heyman, 61

Kevin Heylman Phones & Addresses

  • Hillsboro, OR
  • Madison, WI
  • 8826 Mcgregor Dr, Chevy Chase, MD 20815 (301) 512-8587
  • Bethesda, MD
  • Duvall, WA

Resumes

Resumes

Kevin Heylman Photo 1

Optical Research Scientist

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Location:
6013 northeast Birch St, Hillsboro, OR 97124
Industry:
Semiconductors
Work:
Intel Corporation
Ptd Process Engineer
University of Wisconsin-Madison Sep 2012 - Dec 2012
Graduate Teaching Assistant
Eospace Inc. Sep 2012 - Dec 2012
Optical Research Scientist
Education:
University of Wisconsin - Madison 2011 - 2016
Doctorates, Doctor of Philosophy, Philosophy, Chemistry Colgate University 2007 - 2011
Bachelors, Bachelor of Arts, Physics, Chemistry St. Anselm's Abbey School
Skills:
Nanophotonics
Microfabrication
Electronics
Optoelectronics
Optical Microscopy
Instrumentation
Labview
Photonics
Matlab
Absorption Spectroscopy
Finite Element Analysis
Kevin Heylman Photo 2

Kevin Heylman

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Publications

Us Patents

Free-Space Laser Tuning Of Optical Microcavities

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US Patent:
20150234211, Aug 20, 2015
Filed:
Feb 14, 2014
Appl. No.:
14/180778
Inventors:
- Madison WI, US
Kevin Daniel Heylman - Madison WI, US
Assignee:
Wisconsin Alumni Research Foundation - Madison WI
International Classification:
G02F 1/01
Abstract:
Methods and apparatuses for resonance tuning of microcavities are provided. An apparatus comprises a whispering gallery mode optical microcavity characterized by at least one resonance frequency; optical components configured to evanescently couple a probe laser beam into the microcavity; an absorber element in thermal contact with the microcavity; and optical components configured to illuminate the absorber element with a free space pump light beam, wherein the absorber element is configured to absorb energy from the free space pump light beam, thereby generating heat, and to transfer the heat to the microcavity, thereby inducing a shift in the at least one resonance frequency. The absorber element may be configured as a pillar forming an interfacial region with the microcavity at one of the ends of the pillar. The surface of the microcavity may be substantially free of a coating material.
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Kevin Daniel Heylman from Hillsboro, OR, age ~36 Get Report