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Professor Andy Martin has carried out research in a diverse range of condensed matter physics and quantum optics. Recently his, research has focused on the theoretical investigation of the emergent properties of ultra-cold quantum gases, with additional theoretical and experimental work on the effects of physical rotation on quantum systems using nitrogen vacancy centres in diamond.
Additional research focuses on the development of quantum meta-materials; the investigation of new strongly correlated states of light in coupled atom cavity systems and flocking phenomena in biological systems. Previous research has focused on the investigation of superconductivity, dephasing effects and charge fluctuations in electronic mesoscopic devices (small cold electrical circuits, where the quantum effects dominate); modelling interfaces and disorder in high temperature superconductors and the breakdown of the integer quantum Hall effect (a quantum effect used to define the resistance standard).
Additional research focuses on the development of quantum meta-materials; the investigation of new strongly correlated states of light in coupled atom cavity systems and flocking phenomena in biological systems. Previous research has focused on the investigation of superconductivity, dephasing effects and charge fluctuations in electronic mesoscopic devices (small cold electrical circuits, where the quantum effects dominate); modelling interfaces and disorder in high temperature superconductors and the breakdown of the integer quantum Hall effect (a quantum effect used to define the resistance standard).
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JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICSno. 5 (2023): 055201-055201
A. D. Kerin,A. M. Martin
arxiv(2022)
Bulletin of the American Physical Society (2021)
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PHYSICAL REVIEW RESEARCHno. 4 (2021): 043174
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