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个人简介
Since my PhD (1998) at the University of Rome "La Sapienza", appointments at the University of Nottingham and fellowships in the UK (EPSRC (2004-09) and Leverhulme Trust (2017-19)) and abroad (Chinese Academy of Sciences (2018-19)), my research has focussed on the science and technologies of quantum systems.
Early career My quantum transport studies of nanomaterials at high-magnetic fields (Science 2000) have probed directly charge carriers in quantum confined structures. Imaging the wave function probability density of electrons yields detailed information on the properties of matter and continue to be pursued by innovative experimental techniques. The magneto-tunnelling spectroscopy technique that I developed has enabled new understanding and opened exciting directions towards imaging and manipulating charge carriers for sensing and quantum information.
While imaging single electrons is now well advanced, research on the collective behaviour of electrons is still its infancy. This is of major importance across disciplines as it underpins fascinating new phenomena, such as charge-ordering, quantum chaos, superconductivity, etc. My research on the quantum properties of electrons in disordered systems (Phys.Rev.Lett. 2003 & 2006, Nature Comm. 2012) and in the periodic potential of artificial superlattices (Nature 2004, Phys.Rev.Lett. 2004 & 2012) has shed new light on how a conductor responds to external electric and magnetic fields.
Early career My quantum transport studies of nanomaterials at high-magnetic fields (Science 2000) have probed directly charge carriers in quantum confined structures. Imaging the wave function probability density of electrons yields detailed information on the properties of matter and continue to be pursued by innovative experimental techniques. The magneto-tunnelling spectroscopy technique that I developed has enabled new understanding and opened exciting directions towards imaging and manipulating charge carriers for sensing and quantum information.
While imaging single electrons is now well advanced, research on the collective behaviour of electrons is still its infancy. This is of major importance across disciplines as it underpins fascinating new phenomena, such as charge-ordering, quantum chaos, superconductivity, etc. My research on the quantum properties of electrons in disordered systems (Phys.Rev.Lett. 2003 & 2006, Nature Comm. 2012) and in the periodic potential of artificial superlattices (Nature 2004, Phys.Rev.Lett. 2004 & 2012) has shed new light on how a conductor responds to external electric and magnetic fields.
研究兴趣
论文共 312 篇作者统计合作学者相似作者
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Communications Physicsno. 1 (2023): 1-8
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Mustaqeem Shiffa, Benjamin T. Dewes,Jonathan Bradford,Nathan D. Cottam,Tin S. Cheng,Christopher J. Mellor,Oleg Makarovskiy, Kazi Rahman,James N. O'Shea,Peter H. Beton,Sergei V. Novikov,Teresa Ben,
SMALLno. 7 (2023): e2305865-e2305865
ACS nanono. 6 (2023): 6062-6072
Communications Physicsno. 1 (2023): 1-9
arXiv (Cornell University) (2023)
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Shihong Xie, Mustaqeem Shiffa, Mujahid Shiffa,Zakhar R. Kudrynskyi,Oleg Makarovskiy,Zakhar D. Kovalyuk,Wenkai Zhu, Kaiyou Wang,Amalia Patanè
NPJ 2D MATERIALS AND APPLICATIONSno. 1 (2022): 1-9
CHINESE PHYSICS LETTERSno. 12 (2022): 128501-128501
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