Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/17027
標題: Using coplanar waveguide to probe microwave property of quantum wire arrays.
利用共平面波導測量量子線陣列的微波特性
作者: 吳俊毅
Wu, Chun-Yi
關鍵字: Quantum wire
量子線
Coplanar
Microwave
共平面波導
微波
出版社: 物理學系所
引用: Reference [1] D. K. Cheng, Field and Wave Electromagnetics 2/e. Chapter 9, John Wiley & Sons, Inc, 2002, pp. 375-554. [2] S. Boriotti and D. Dennis, EDGE EXCITATIONS OF LOW-DIMENSIONAL CHARGED SYSTEMS. Chapter 1, Nova Science Publishers, Inc., 2001, pp. 1-41. [3] R. Crook, J. Prance, K. J. Thomas, S. J. Chorley, I. Farrer, D. A. Ritchie, M. Pepper, and C. G. Smith, "Conductance quantization at a half-integer plateau in a symmetric GaAs quantum wire," Science, vol. 312, no. 5778, pp. 1359-1362, June.2006. [4] N. Nishiguchi, "Confined and interface acoustic phonons in a quantum wire," Phys. Rev. B., vol. 50, pp. 10970-10980, Oct.1994. [5] S. D. Sarma and E. H. Hwang, "Dynamical response of a one-dimensional quantum-wire electron system," Phys. Rev. B. vol. 54, pp. 1936-1946, July1996. [6] E. K. Sichel, H. H. Sample, and J. P. Salerno, "Equipotential distribution in the quantum Hall effect," Phys. Rev. B., vol. 32, no. 10, pp. 6975-6977, Nov.1985. [7] H. Z. Zheng, K. K. Choi, D. C. Tsui, and G. Weimann, "Observation of size effect in the quantum hall regime," Phys. Rev. Lett., vol. 55, pp. 1144-1147, Sept.1985. [8] C. W. Beenakker, "Edge channels for the fractional quantum Hall effect," Phys. Rev. Lett., vol. 64, pp. 216-219, Jan.1990. [9] W. P. Su, "Higher-order fractional quantum Hall effect," Phys. Rev. B., vol. 32, pp. 2617-2620, Aug.1985. [10] L. W. Engel, D. Shahar, C. Kurdak, and D. C. Tsui, "Microwave frequency dependence of integer quantum Hall effect: Evidence for finite-frequency scaling," Phys. Rev. Lett., vol. 71, pp. 2638-2641, Oct.1993. [11] H. Ito, C. Rajyaguru, N. Yugami, Y. Nishida, and T. Hosoya, "Propagation characteristics and guiding of a high-power microwave in plasma waveguide," Phys. Rev. E., vol. 69, pp. 066406-066409, June2004. [12] G. I. Zaginaylov, A. Grudiev, K. Schunemann, and P. V. Turbin, "Fractal properties of trivelpiece-gould waves in periodic plasma-filled waveguides," Phys. Rev. Lett., vol. 88, p. 195005, May2002. [13] W. H. Hsieh, "High-Frequency Dynamic Magnetotransport Properties of Low_Dimensional Electron Systems." 2005. Ph. D. thesis, Department of Electrical Engineering, National Taiwan University. [14] Shu-Yu Chang, "Dynamic properties of quantum-wire array in magnetic field." 2004. Master thesis, Department of Physics, National Chung Hsing University. [15] Yu-Tai Sung, "High-sensitivity Low-drift microwave vector detections applied on Low-dimension electron systems at low temperature." 2006. Master thesis, Department of Physics, National Chung Hsing University. [16] W. H. Hsieh, C. H. Kuan, Y. W. Suen, S. Y. Chang, L. C. Li, B. C. Lee, and C. P. Lee, "High-sensitivity microwave vector detection at extremely low-power levels for low-dimensional electron systems," App. Phys. Lett., vol. 85, pp. 4196-4198, Sept.2004. [17] S. A. Mikhailov, "Low-frequency dynamics of quantum-wire arrays in a strong magnetic field," JEPT Lett., vol. 57, pp. 586-590, Apr.1993. [18] I. L. Aleiner and L. I. Glazman, "Novel edge excitations of two-dimensional electron liquid in a magnetic field," Phys. Rev. Lett., vol. 72, pp. 2935-2938, May1994. [19] I. L. Aleiner, D. Yue, and L. I. Glazman, "Acoustic excitations of a confined two-dimensional electron liquid in a magnetic field," Phys. Rev. B, vol. 51, pp. 13467-13474, May1995.
摘要: In this thesis the low-temperature (down to 50 mK) microwave (MW) magnetotransport properties of magnetoplasma excitations in quantum-wires (QWs). The sample consists of 7200 QWs (0.7
這篇論文我們將陳述量子線陣列在低溫(50 mK)以下等離子體的受高頻激發後的磁傳輸現象。我們為了要作高頻測量,利用黃光黃光微影再用濕式蝕刻在GaAs/AlGaAs異質結構上面,製程特徵阻抗為50
URI: http://hdl.handle.net/11455/17027
其他識別: U0005-1807200707064300
文章連結: http://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-1807200707064300
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