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Professor Chiang has done seminal research on the electronic properties, lattice structure, and dynamic behavior of surfaces, interfaces, and ultrathin films. He employs molecular beam epitaxy techniques to create thin films and composite systems made of metals, semiconductors, topological insulators, superconductors, and charge-density-wave compounds, where functionality and novel properties may emerge from quantum confinement and coherent coupling among the components of the composite.
While his work focuses on basic scientific principles, many of the systems under investigation have strong potential for applications. He is credited for being the first one to create atomically uniform films of thicknesses ranging from a single layer to well over a hundred layers. Such films function as miniature electron interferometers in which electrons bounce back and forth between the two boundaries to form standing waves, also known as quantum well states. These effects allow precise measurements of the electronic wavelength and the kinetics of electron motion. Professor Chiang is an outstanding theorist who is able to develop theoretical models for his experimental results.
While his work focuses on basic scientific principles, many of the systems under investigation have strong potential for applications. He is credited for being the first one to create atomically uniform films of thicknesses ranging from a single layer to well over a hundred layers. Such films function as miniature electron interferometers in which electrons bounce back and forth between the two boundaries to form standing waves, also known as quantum well states. These effects allow precise measurements of the electronic wavelength and the kinetics of electron motion. Professor Chiang is an outstanding theorist who is able to develop theoretical models for his experimental results.
研究兴趣
论文共 195 篇作者统计合作学者相似作者
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ACS Nano (2024)
ACS NANOno. 14 (2024): 10243-10248
Jack Zwettler, Henry Amir, Faren H. Marashi, Nina Bielinski, Sahaj Patel, Pranav Mahaadev,Yijing Huang,Dipanjan Chaudhuri,Xuefei Guo,Tai Chang Chiang,Dirk K. Morr,Peter Abbamonte,
Jin Chen,Xuefei Guo,Christian Boyd,Simon Bettler,Caitlin Kengle, Dipanjan Chaudhuri, Farzaneh Hoveyda,Ali Husain,John Schneeloch,Genda Gu,Philip Phillips,Bruno Uchoa,
PHYSICAL REVIEW Bno. 4 (2024)
ACS nanono. 14 (2024): 10243-10248
Iaroslav Lutsyk,Karol Szalowski,Pawel Krukowski,Pawel Dabrowski,Maciej Rogala,Witold Kozlowski,Maxime Le Ster,Michal Piskorski,Dorota A. Kowalczyk, Wojciech Rys, Rafal Dunal, Aleksandra Nadolska,
NANO RESEARCHno. 3 (2024): 2204-2204
PHYSICAL REVIEW Bno. 20 (2023)
Qiangsheng Lu, P. V. Sreenivasa Reddy, Hoyeon Jeon,Alessandro R. Mazza,Matthew Brahlek,Weikang Wu,Shengyuan A. Yang,Jacob Cook,Clayton Conner,Xiaoqian Zhang,Amarnath Chakraborty,Yueh-Ting Yao,
arxiv(2023)
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Iaroslav Lutsyk, Karoli Szalowski,Pawel Krukowski,Pawel Dabrowski,Maciej Rogala,Witold Kozlowski,Maxime Le Ster,Michal Piskorski,Dorota A. Kowalczyk, Wojciech Rys, Rafal Dunal,Aleksandra Nadolska,
Nano Researchno. 8 (2023): 11528-11539
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