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  • 學位論文

利用脈衝雷射蒸鍍法製備碲化鉍薄膜與其變溫兆赫波時域頻譜研究

Temperature-dependent time-domain spectroscopy studies of terahertz electromagnetic properties of pulsed-laser deposited Bi2Te3 thin films

白偉均(Wei-Jyun Bai)
指導教授 : 吳光雄
國立交通大學/理學院/電子物理系所/碩士(2014年)
https://doi.org/10.6842/NCTU.2014.00631
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摘要

在本論文中,我們將利用脈衝雷射蒸鍍法調控溫度、壓力與脈衝能量將最佳化的碲化鉍薄膜成功的長在藍寶石(0001)基板上。隨後利用XRD、Raman、EDS來量測碲化鉍的晶格結構、薄膜品質與碲、鉍間之組成比例。並且用可變溫兆赫波時域頻譜來研究此薄膜在兆赫波頻段下的電磁特性。利用量測數據與理論分析可獲得此薄膜材料在各種不同溫度之下的光學電導率,再透過Drude-Lorentz、Drude-Fano模型來進行數學擬合,並可以得到碲化鉍薄膜之聲子模態振動頻率、電漿頻率以及散射率。最後我們會將兆赫波輻射經過不同溫度下的碲化鉍薄膜所得到的光電常數與溫度之間的關係以及低溫區間電子-聲子耦合現象進行討論與分析。

關鍵字

脈衝雷射蒸鍍法 碲化鉍 變溫兆赫波時域頻譜

並列摘要

In this work, we have prepared Bi2Te3 thinfilm grown on sapphire (Al2O3) (0001) substrates by pulsed laser deposition (PLD) with optimized deposition temperature, pressure and pulse energy. The Bi2Te3 thinfilm quality, structure and Bi/Te ratio analyzed by X-ray diffraction (XRD), Raman spectroscopy and Energy dispersive spectrometer (EDS). Moreover, we have used temperature dependent time-domain terahertz spectroscopy to investigate the low-frequency complex conductivity in Bi2Te3 thinfilm at different temperature. The temperature dependent terahertz conductivity of optimized Bi2Te3 thinfilm can be fitted with Durde-Lorentz and Drude-Fano model. Finally, we can observe that the relationship between optical constants and temperature, including the phonon oscillator frequency, plasma frequency and scattering rate. In addition, the electron-phonon couple effect was also found at the low-temperature region.

並列關鍵字

Pulse laser deposition Bi2Te3 Temperature-dependent THz-Time Domain Spectroscopy

參考文獻

[1]A. Richardella, D. M. Zhang, J. S. Lee, A. Koser, D. W. Rench, A. L. Yeats, B. B. Buckley, D. D. Awschalom, and N. Samarth, “Coherent heteroepitaxy of Bi2Se3 on GaAs (111)B”, Appl. Phys. Lett. 97, 262104 (2010).
[2]Han-Jin Noh, H. Koh, S. J. Oh, J. H. Park, H. D. Kim, J. Rameau, T. Valla, T. Kidd, P. D. Johson, Y. Hu and Q. Li, “Spin-orbit interaction effect in the electronic structure of Bi2Te3 observed by angle-resolved photoemission spectroscopy”, ArXiv:0803.0052v1 (2008).
[3]J. E. Moore and L. Balents, “Topological invariants of time reversal invariant band structure”, Phys. Rev. B 75, 121306(R) (2007).
[4]S. M. Young, S. Chowdhury, E. J. Walter, E. J. Mele, C. L. Kane, and A. M. Rappe, “Theoretical investigation of the evolution of the topological phase of Bi2Se3 under mechanical strain”, Phys. Rev. B 84, 085106 (2011).
[5]H. Lind, S. Lidin, and U. Häussermann, “Structure and bonding properties of (Bi2Se3)m(Bi2)n stacks by first-principles density functional theory”, Phys. Rev. B 72, 184101 (2005).

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