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Quantum mechanics is a theory that was developed to explain the properties of atoms and light. It is one of the most thoroughly tested and successful theories in the history of science. It is also one of the most controversial ones. For over 80 years, quantum mechanics has stirred up deep debate amongst physicists, in particular about the notion that an object can be in a coherent superposition of two states simultaneously. Moreover, since the mass of an object does not directly enter into the quantum formalism, the theory should be applicable to all objects in the universe, thus raising deep philosophical questions about how then one obtains classical behavior if the word is actually quantum.
Our group, the Quantum Nanoelectronics Laboratory, investigates the quantum coherence of various condensed matter systems ranging from microscopic nanomagnets such as single molecule magnets to complex macroscopic electrical circuits. To measure the electric and magnetic properties of these quantum systems, we are developing novel microwave frequency quantum-noise-limited amplifiers based on superconducting Josephson junctions formed by both oxide tunnel barriers and carbon nanotube weak links. Current topics of research include the dependence of quantum coherence on system complexity, the non-equilibrium quantum statistical mechanics of non-linear oscillators, the quantum coherence of single molecules, and topological architectures for maximum coherence in superconducting circuits.
Our group, the Quantum Nanoelectronics Laboratory, investigates the quantum coherence of various condensed matter systems ranging from microscopic nanomagnets such as single molecule magnets to complex macroscopic electrical circuits. To measure the electric and magnetic properties of these quantum systems, we are developing novel microwave frequency quantum-noise-limited amplifiers based on superconducting Josephson junctions formed by both oxide tunnel barriers and carbon nanotube weak links. Current topics of research include the dependence of quantum coherence on system complexity, the non-equilibrium quantum statistical mechanics of non-linear oscillators, the quantum coherence of single molecules, and topological architectures for maximum coherence in superconducting circuits.
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论文共 344 篇作者统计合作学者相似作者
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arxiv(2024)
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Bingcheng Qing,Ahmed Hajr, Ke Wang,Gerwin Koolstra,Long B. Nguyen, Jordan Hines, Irwin Huang,Bibek Bhandari, Zahra Padramrazi,Larry Chen, Ziqi Kang,Christian Jünger,Noah Goss, Nikitha Jain, Hyunseong Kim, Kan-Heng Lee,Akel Hashim,Nicholas E. Frattini,Justin Dressel, Andrew N. Jordan, David I. Santiago,Irfan Siddiqi
arxiv(2024)
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Nathan Shammah,Anurag Saha Roy,Carmen G. Almudever,Sébastien Bourdeauducq,Anastasiia Butko,Gustavo Cancelo,Susan M. Clark,Johannes Heinsoo,Loïc Henriet,Gang Huang,Christophe Jurczak,Janne Kotilahti,Alessandro Landra,Ryan LaRose,Andrea Mari,Kasra Nowrouzi,Caspar Ockeloen-Korppi,Guen Prawiroatmodjo,Irfan Siddiqi,William J. Zeng
APL Quantumno. 1 (2024): 011501-011501-17
Abhi D. Rajagopala,Akel Hashim,Neelay Fruitwala,Gang Huang,Yilun Xu,Jordan Hines,Irfan Siddiqi, Katherine Klymko,Kasra Nowrouzi
arxiv(2024)
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NATURE COMMUNICATIONSno. 1 (2024)
NPJ QUANTUM INFORMATIONno. 1 (2024)
NPJ QUANTUM INFORMATIONno. 1 (2024)
Neelay Fruitwala,Akel Hashim, Abhi D. Rajagopala,Yilun Xu,Jordan Hines,Ravi K. Naik,Irfan Siddiqi, Katherine Klymko,Gang Huang,Kasra Nowrouzi
arxiv(2024)
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arXiv (Cornell University) (2024)
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作者统计
#Papers: 342
#Citation: 13130
H-Index: 47
G-Index: 104
Sociability: 7
Diversity: 2
Activity: 210
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