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Assistant Professor
Lin, Yiping

  
Office¡G886-3-5742534 (PHYS R223)
Laboratory¡GQuantum Device Lab
Lab Tel¡G886- 03-5742340 (PHYS R021)
Fax¡G886-3-5723052
E-mail¡Gyplin@phys.nthu.edu.tw

Education
  1. 1997-2002 Ph.D in State University of New York at Stony Brook, U.S.A.
  2. 1995-1997 M.S. in Physics, National Tsing Hua University, R.O.C.
  3. 1991-1995 B.S. in Physics, National Tsing Hua University, R.O.C.
Professional Experience
Current position¡G
  1. 2004-present, Assistant Professor of Physics, National Tsing Hua University
Experience¡G
  1. 2002-2004, Postdoc. of Spintronics, NTT Basic Research Laboratory
  2. 2002, Postdoc. of Spintronics, Dr. Nitta's NEDO Project
Research Fields
    1. Spintronics
    2. Low-dimensional Physics
    3. Semiconductor Physics
Research Interests and achievement
Updated on September 3, 2006

I began my research study in low-dimensional systems in semiconductor heterostructures in SUNY at Stony Brook with Prof. Mendez. Particularly we looked into the phenomenon of two-dimensional (2D) electron and hole gases through magneotunneling spectroscopy. We have observed several interesting features that can attributed to the interplay between 2D electron and hole systems.

Later, the intriguing spin behaviors in these systems and its promising applications fascinate me. Together with Dr. Nitta and Dr. Koga in NTT BRL in Japan, we started to investigate the spin-orbit interaction of 2D electron gas in InGaAs/InAlAs system. We have demonstrated the control of g-factor and spin-orbit interaction via the gate voltage and the interface effect on Rashba spin-orbit coupling strength, which can be integrated for the purpose of application devices.

My current research interests focus on exploring the spin-orbit interaction and quantum mechanical phenomena in nanostructures.


Selected Publications
  1. [2005] A.K.M. Newaz, W. Song, YL, J. Nitta and E. E. Mendez, Shot-noise characteristics of triple-barrier resonant-tunneling diodes, Phys. Rev B 71, 195303 (2005)
  2. [2005] YL, T. Koga and J. Nitta, Effect of the InP/In0.53Ga0.47As Interface on Spin-Orbit Interaction in InAlAs/ InGaAs Heterostructures, Phys. Rev. B 71, 45328 (2005)
  3. [2004] YL, J. Nitta, T. Koga and T. Akazaki, Electron g Factor in a Gated InGaAs Channel with Double InAs-inserted Wells, Physica E 21, 656 (2004).
  4. [2003] J. Nitta, YL, T. Akazaki and T. Koga, Gate-Controlled Electron G Factor in an InAs-Inserted-Channel In0.53Ga0.47As/ In0.52Al0.48As Heterostructure, Appl. Phys. Lett. 83, 4565 (2003).
  5. [2003] YL, E. E. Mendez, R. Magno, B. Bennett, A. S. Bracker, Magnetotunneling Between Two-Dimensional Electron Gases in InAs-AlSb-GaSb Heterostructures, Phys. Rev. B 68, p.035311 (2003)
  6. [2002] YL, E. E. Mendez and A. G. Abanov, Tunneling Characteristics of an Electron-hole Trilayer in a Parallel Magnetic Field, , Phys. Rev. B 66, p.195311 (2002)
  7. [2002] Yu. B. Vasilyev, V. A. Solov'ev, B. Ya. Mel'tser, A. N. Semenov, M. V. Baidakova, and S. V. Ivanov, YL, and E. E. Mendez Control by an Electric-field of Electron-hole Separation in Type II Heterostructures, Solid State Comm. 124, p.323 (2002).
  8. [2001] E. M. Gonzalez, YL and E. E. Mendez Magnetotunneling in two-dimensional electron-hole system near equilibrium, Phys. Rev B 63, 033308 (2001).

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