國立中興大學物理學系暨奈米科學研究所

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孫允武

Tel 22840427 分機398   超低溫高磁實驗 / 半導體元件及物理 / 凝態物理 / 超高真空技術 / 高頻電路及系統 / 低雜訊電子電路
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  • 學歷 Education
    美國普林斯敦大學電機工程系博士
    國立台灣大學電機工程系碩士
    國立台灣大學電機工程系學士
     
    經歷 Work Experience
    國立中興大學物理系/奈米所教授(2007-present)
    中華民國物理教育學會諮詢委員(2017-2018)
    中華民國物理學會理事(2014-2017)
    國立中興大學物理系系主任(2012/08-2017/07)
    國立中興大學理學院應用科技中心主任(2012-2015)
    國立中興大學奈米所所長(2009/08-2012/07)
    國家奈米元件實驗室研究員(2007-2013)
    國家奈米元件實驗室副研究員(2005-2007)
    國立中興大學物理系副教授(1994/02-2007/07)
  • 超低溫高磁實驗 / 半導體元件及物理 / 凝態物理 / 超高真空技術 / 高頻電路及系統 / 低雜訊電子電路
    1. Chih-Kai Hsu, Chi-Yi Lin, Wenwu Li*, Huabin Sun, Yong Xu*, Zhigao Hu, Yuan-Ming Chang, Yuen-Wuu Suen, and Yen-Fu Lin*, The impact of electrical contacts and contact-induced ultralow noise amplitudes in layered transistors. 2D Materials, 3(4), 045015 (2016).
    2. Yen-Fu Lin*, Yong Xu, Che-Yi Lin, Yuen-Wuu Suen, Mahito Yamamoto, Shu Nakaharai, Keiji Ueno, and Kazuhito Tsukagoshi*, Origin of Noise in Layered MoTe2 Transistors and its Possible Use for Environmental Sensors. Advanced Materials, 27(42), 6612-6619 (2015).
    3. Chih-Ming Lin , Kung-Liang Lin, Yu-Ker Chern, Yu-Kun Lin, Yu-Chun Chuang, Yen-Fa Liao, Yuen-Wuu Suen, Sheng-Rui Jian*, and Jenh-Yih Juang, Pressure-Induced Phase Transitions in InAs Studied by Angular-Dispersive X-ray Diffraction and Raman Spectroscopy. Science of Advanced Materials, 7(6), 1039-1044 (2015).
    4. Y. C. Lee, C. T. Chao, L. C. Li, Y. W. Suen, Lance Horng, Te-Ho Wu, C. R. Chang, and J. C. Wu, Magnetic tunnel junction based out-of-plane field sensor with perpendicular magnetic anisotropy in reference layer. Journal of Applied Physics, 117, 17A320 (2015).
    5. Sheng-Kai Su*, Oleksandr Voskoboynikov, Liang-Chen Li, Yuen-Wuu Suen, and Chien-Ping Lee (2014). GaAs Polariton Interference in Magnetic Field: Oblique Incident Ellipsometry Measurement. Journal of the Physical Society of Japan, 83, 114703 (2014).
    6. Hung-Ming Chen, Yuen-Wuu Suen*, Sao-Jie Chen, Guang-Li Luo, Yen-Pu Lai, Shih-Ta Chen, Chien-Hung Lee and Chieh-Hsiung Kuan*, Effect of surface Si redistribution on the alignment of Ge dots grown on pit-patterned Si(001) substrates. Nanotechnology, 25, 475301 (2014).
    7. H. Li, H. H. Cheng*, L. C. Lee, C. P. Lee, L. H. Su and Y. W. Suen. Electrical characteristics of Ni Ohmic contact on n-type GeSn. Appl. Phys. Lett., 104, 241904-1~4 (2014).
    8. Sheng-Kai Su*, Liang-Chen Li, Yuen-Wuu Suen*, Jau-Yang Wu, Hong-Rong Kuo, Yu-Tai Sung, Chien-Ping Lee and Oleksandr Voskoboynikov, Low temperature and high magnetic field spectroscopic ellipsometry system. Rev. Sci. Instrum. , 85 , 055101-1~9 (2014).
    9. Chih-Ming Lin*, Kung-Liang Lin, Yu-Ker Chern, Chia-Hung Hsu, Hwo-Shuenn She, Yen-Fa Liao, Yuen-Wuu Suen, Sheng-Rui Jian, and Jenh-Yih Juang*, Pressure-induced structural phase transition in bulk Zn0.98Mn0.02O by angular dispersive X-ray diffraction. Journal of Alloys and Compounds, 604, 298–303 (2014).
    10. H. M. Chen, C. H. Kuan*, Y. W. Suen*, G. L. Luo, Y. P. Lai, F. M. Wang, and S. T. Chen, ”Thermally induced morphology evolution of pit-patterned Si substrate and its effect on nucleation properties of Ge dots,” Nanotechnology 23, 015303 (2012)
    11. T. C. Lin*, L. C. Li, S. D. Lin, Y. W. Suen, and C. P. Lee, “Anomalous optical magnetic shift of self-assembled GaSb/GaAs quantum dots”, J. Appl. Phys 110, 013522
    12. C. I. Shih, C. H. Lin, K. W. Sun, O. Voskoboynikov, C. P. Lee, S.-C. Lin, T. C. Lin, and Y. W. Suen*, “Effects of crossed states on photoluminescence excitation spectroscopy of InAs quantum dots,” Nanoscale Research Letters 6, 409 (2011)
    13. C. W. Chiu, T. W. Liao, C. H. Kuan*, Y. W. Suen*, K. Y. Tsai, F. M. Wang, “Fabrication method of high-quality Ge nanocrystals on patterned Si substrate by local melting point control,“ Nanotechnology 22, 275604 (2011)
    14. L. L. C. Li*, K. H. Huang, J. A. Wei, Y. W. Suen, T. W. Liu, C. C. Chen, L. C. Chen, and K. H. Chen, “Low-frequency contact noise of a GaN nanowire device by using cross spectrum technique,” Jpn. J. Appl. Phys. 50, 06GF21 (2011)
    15. T. C. Lin*, Y. H. Wu, L. C. Li, Y. T. Sung, S. D. Lin, L. Chang, Y. W. Suen, and C. P. Lee, “Electron Delocalization of Tensily-Strained GaAs Quantum Dots in GaSb matrix” J. Appl. Phys. 108, 123503 (2010)
    16. L. C. Li, Y. T. Sung, C. W. Chang, Y. W. Suen*, K. Y. Chen, C. T. Liang, Y. F. Chen, B. C. Lee, C. P. Lee, “Microwave-induced DC currents in mesoscopic structures” Physica E 42, 1084 (2010).
    17. C. C. Y. Lin, W. H. Wang, C.-S. Lee, K. W. Sun*, and Y. W. Suen, “Magnetophotoluminescence properties of Co-doped ZnO nanorods” Applied Physics Letters 94, 151909 (2009)
    18. L. C. Li, S. Y. Huang, J. A. Wei, Y. W. Suen*, M. W. Lee, W. H. Hsieh, T. W. Liu, and C. C. Chen, “Correlated Electric Fluctuations in GaN Nanowire Devices,” J. Nanosci. Nanotechnol. 9, 1000 (2009).
    19. L. L. C. Li, S. Y. Huang, J. A. Wei, Y. W. Suen*, M. W. Lee, W. H. Hsieh, T. W. Liu, and C. C. Chen, “Correlated Electric Fluctuations in GaN Nanowire Devices,” J. Nanosci. Nanotechnol. 9, 1000 (2009)
    20. S. Liou, W. Kuo*, Y. W. Suen, C. S. Wu and C. D. Chen, “Phase diffusions due to radio-frequency excitations in one-dimensional arrays of superconductor/ insulator/superconductor junctions,” New J. Phys. 10, 073025 (2008)
    21. Y. Y. R. Chen, C. H. Kuan*, Y. W. Suen*, Y. H. Peng, P. S. Chen, C. H. Chao, E. Z. Liang, C. F. Lin, and H. C. Lo, “High-density one-dimensional well-aligned germanium quantum dots on a nano-ridge array, ” Applied Physics Letters 93, 083101 (2008). IF: 3.841
    22. W. H. Hsieh, Y. W. Suen*, L. C. Li, B. C. Lee, C. P. Lee, “Edge magneto-plasma excitations in quantum wire arrays, ” Physica E 40, 1681 (2008)
    23. K. K. Y. Wang, W. P. Huang, H. H. Cheng*, G. Sun , R. A. Soref , R. J. Nicholas, Y. W. Suen, “Observation of type-I and type-II excitons in strained Si/SiGe quantum-well structures,” Applied Physics Letters 91, 072108 (2007). IF:3.841
    24. S. Liou , W. Kuo*, Y. W. Suen, W. H. Hsieh, C. S. Wu, and C. D. Chen, “Shapiro steps observed in a superconducting single electron transistor” Chinese J. Phys. 45, 230 (2007). IF:0.444
    25. T. T. H. Chiu, T. W. Huang, C. H. Liang, D. C. Niu, Y. W. Suen and K. H. Cheng,” Attenuation of Electromagnetic Pulse Using High Temperature Superconductor”, IEEE Transactions on Applied Superconductivity 17, 1831 (2007).
    26. Y. F. Lin, W. B Jian, C. P. Wang, Y. W. Suen, Z. Y. Wu, F. R. Chen, J. J. Kai, J. J. Lin, “Contact to ZnO and intrinsic resistances of individual ZnO nanowires with a circular cross section,” Applied Physics Letters 90, 223117 (2007).
    27. Zhi-Chang Lin, Wen-Hsing Hsieh, Chien-Ping Lee and Yuen-Wuu Suen, “Mobility asymmetry in InGaAs/InAlAs hetrostructures with InAs quantum wires,” Nanotechnology 18, 075403 (2007).
    28. Ming-Way Lee*, Yu-Shen Chen,Wei-Ciao Lai, Yuen-Wuu Suen, Jong-Ching Wu, “New Technique for Fabrication of Individual Carbon-Nanotube Field Emitters”, Japanese Journal of Applied Physics 46, 430 (2007).
    29. Y. W. Suen*, W. H. Hsieh, C. L. Chen, L. C. Li, C. H. Kuan, "Instrumentation of a high-sensitivity microwave vector detection system for low-temperature applications", REVIEW OF SCIENTIFIC INSTRUMENTS 76, 084704 (2005).
    30. Y. H. Peng, Chih-Hsiung Hsu, C. H. Kuan*, and C. W. Liu, P. S. Chen and M.-J. Tsai, and Y. W. Suen, "The evolution of electroluminescence in Ge quantum-dot diodes with the fold number." Applied Physics Letters, 85. 6107(2004)(This paper has been selected for the December 27, 2004 issue of Virtual Journal of Nanoscale Science & Technology at http://www.vjnano.org by AIP.)
    31. W. H. Hsieh, Y. W. Suen*, S. Y. Chang, L. C. Li, C. H. Kuan, B. C. Lee, and C. P. Lee, "High-sensitivity microwave vector detection at extremely low-power levels for low-dimensional electron systems," Applied Physics Letters, 85, 4196 (2004).(This paper has been selected for the November 15, 2004 issue of Virtual Journal of Nanoscale Science & Technology at http://www.vjnano.org by AIP.)
    32. S. D. Lin, C. P. Lee*, W. H. Hsieh, and Y. W. Suen, " Self-assembled GaAs antiwires in In0.53Ga0.47As matrix on (100) InP substrates", Applied Physics Letters 81, 3007 (2002).
    33. Y.W. Suen*, C.C. Young, C.J. Chang, J.C. Wu, S.Y. Wang, and C.P. Lee, "A Light-Induced Tunneling State In a Submicron Double Barrier Tunneling Diode With a Center-Doped Well," Physica E 6, 331 (2000).
    34. C.H. Lee, Y.H. Chang*, Y.W. Suen, H.H. Lin ”Magnetic-field-induced delocalization in center-doped GaAs/AlGaAs multiple quantum wells,” Physical Review B 58, 10629 (1998).
    35. S.P. Shukla, Y.W. Suen, and M. Shayegan, ”Magnetic-field-induced triple-layer to bilayer transition,”Physical Review Letters 81, 693 (1998).
    36. H.C. Manoharan, Y.W. Suen, T.S. Lay, M.B. Santos, and M. Shayegan, ”Interaction-induced interlayer charge transfer at high magnetic fields,” Physica E 1, 172 (1997).
    37. C.H. Lee, Y.H. Chang, Y.W. Suen, H.H. Lin ”Magnetic-field-induced insulator-quantum Hall conductor-insulator transitions in doped GaAs/AlGaAs quantum wells,” Physical Review B 56, 15238 (1997).
    38. H.C. Manoharan, Y.W. Suen, T.S. Lay, M.B. Santos, and M. Shayegan, ”Spontaneous interlayer charge transfer near the magnetic quantum limit,” Physical Review Letters 79, 2722 (1997).
    39. H.C. Manoharan, Y.W. Suen, M.B. Santos, and M. Shayegan, ”Evidence for a bilayer quantum Wigner solid,”Physical Review Letters 77, 1813 (1996).
    40. H.C. Manoharan, Y.W. Suen, M.B. Santos, and M. Shayegan, ”Correlated insulating states of an interacting bilayer electron system,”Surface Science 361, 106 (1996).
    41. M. Shayegan, H.C. Manoharan, Y.W. Suen, T.S. Lay, and M.B. Santos, ”Correlated bilayer electron states,”Semiconductor Science and Technology 11, 11s, 1539 (1996).
    42. Y.W. Suen, H.C. Manoharan, X. Ying, M.B. Santos, and M. Shayegan, ”Origin of the 1/2 FQH state in wide single quantum wells,” Physical Review Letters 72, 3405 (1994).
    43. T.S. Lay, Y.W. Suen, H.C. Manoharan, X. Ying, M.B. Santos, And M. Shayegan, ”Anomalous temperature dependence of the correlated =1 quantum Hall effect in bilayer electron systems,” Physical Review B 50, 17725 (1994).
    44. T.S. Lay, J.J. Heremans, Y.W. Suen, M.B. Santos, K. Hirakawa, M. Shayegan, and A. Zrenner, ”High-quality two-dimensional electron system confined in an AlAs quantum well,”Applied Physics Letters 62,3120 (1993).
    45. Y.W. Suen, J. Jo, M. Santos, and M. Shayegan, ”Fractional quantum Hall effect in multilayer electron systems,” Physica B184, 43-50 (1993).
    46. M.B. Santos, Y.W. Suen, M. Shayegan, Y.P. Li, L.W. Engel, and D.C. Tsui, ”Observation of a reentrant insulating phase near the 1/3 fractional quantum Hall liquid in two-dimensional hole system,” Physical Review Letters 68, 1188 (1992).
    47. Y.W. Suen, M.B. Santos, and M. Shayegan, ”Correlated states of an electron system in a wide quantum well,” Physical Review Letters 69,3551 (1992).
    48. Y.W. Suen, L.W. Engel, M.B. Santos, M. Shyegan, and D.C. Tsui, ”Observation of a v=1/2 fractional quantum Hall state in a double layer electron system,” Physical Review Letters 68,1379 (1992).
    49. J. Jo, Y.W. Suen, M. Santos, L.W. Engel, and M. Shayegan, ”Quantum Hall effect in a triple-layer electron system,” Physical Review B46,9776 (1992)
    50. Y.W. Suen, J. Jo, M.B. Santos, L.W. Engel, and M. Shayegan, ”Magnetotransport properties of double-layer systems in single wide quantum wells,”Surface Science 263, 152 (1992).
    51. Y.W. Suen, J. Jo, M. Santos, L.W. Engel, S.W. Hwang, and M. Shayegan, ”Missing integral quantum Hall effect in a wide single quantum well,” Physical Review B44 (Rapid Communications), 5947 (1991).
    52. T. Sajoto, Y.W. Suen, L.W. Engel, M.B. Santos, and M. Shayegan, ”Fractional quantum Hall effect in very low density GaAs/AlGaAs Heterostructures,” Physical Review B41, 8449 (1990).
    53. M. Shayegan, J. Jo, Y.W. Suen, M.Santos, and V.J. Goldman, ”Collapse of the fractional quantum Hall effect in an electron system with large layer thickness,” Physical Reveiew Letters 65, 2916 (1990).
    54. J. Jo, M.B. Santos, M. Shayegan, Y.W. Suen, L.W. Engel, and A-M. Lanzillotto, ”Novel superlattice in a selectively-doped wide parabolic well with a modulated potential,” Applied Physics Letters 57,2130 (1990).
    55. M. Shayegan, L.W. Engel, V.J. Goldman, M.B. Santos, Y.W. Suen, and T. Sajoto, ”MBE growth of high-quality two-dimensional electron system,” Journal of Vacuum Science and Technology B87, 388-390 (1989).
    56. M.B. Santos, J Jo, Y.W. Suen, L.W. Engel, and M. Shayegan, ”Effect of Landau-level mixing on quantum-liquid and solid states of two-dimensional hole systems,” Physical Review B46, 13639 (1992).

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