People
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Dr. Maggie E. Taylor
Alumni
Research: Nanoelectronics
Postal Code: Microdevices Lab: Jet Propulsin Laboratory - Pasadena, CA
Web Page:
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Publications and Presentations:
The role of particle energy and pulsed particle flux in physical vapor deposition and pulsed–laser deposition
Stefan G. Mayr, Michael Moske, Konrad Samwer, Maggie E. Taylor, and Harry A. Atwater
Applied Physics Letters (1999)
Monte Carlo simulations of epitaxial growth: comparison of pulsed laser deposition and molecular beam epitaxy
Maggie E. Taylor and Harry A. Atwater
Applied Surface Science (1998)
Role of energetic flux in low temperature Si epitaxy on dihydride-terminated Si(001)
Maggie E. Taylor, Harry A. Atwater, M. V. Ramana Murty
Thin Solid Films (1998)
In situ real-time analysis of alloy film composition and segregation dynamics with parallel detection reflection electron energy loss spectroscopy
Channing C. Ahn, H. Yoshino, T. Tambo, Selmer S. Wong, Gang He, Maggie E. Taylor, Harry A. Atwater
Applied Physics Letters (1997)
Solid phase epitaxy of diamond cubic SnxGe1-x alloys
Maggie E. Taylor, Gang He, Harry A. Atwater, Albert Polman
Journal of Applied Physics (1996)
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