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Oscar Dahlsten

单位:南方科技大学物理系

研究方向:Quantum Information Theory; Information Thermodynamics

个人主页: http://phy.sustc.edu.cn/index.php?s=/Show/index/cid/45/id/498.html


Research Interest

Quantum Information Theory

Information Thermodynamics

Energy Harvesting 

Quantum Machine Learning 

Foundations of Quantum Theory 


Educational Background 

2008 Ph.D. Physics Imperial College, London

2004 M.Sc. Physics Imperial College, London (first class honours)

1999 Bilingual International Baccalaureate Kungsholmens Gymnasium, Stockholm


Professional Experience

Oct 2016-Apr 2017     Res. Assoc.           QOLS, Physics Dept, Imperial College

Jan 2014- Apr 2017    Research Fellow    Wolfson College, Oxford University (OU)

Jan 2013- Apr 2017    Lecturer                St. Catherine’s College, OU.

Sep 2015- Apr 2017    Fellow                        London Inst. for Math. Sci.           

Jan 2014-Sep 2016     Res. Assoc.          Atomic and Laser Physics, OU.

Aug 2010-Dec 2013     Research Fellow,   NUS Singapore and OU.,

Dec 2007-Aug 2010     Wissenschaftl.Mitarb. R. Renner group ITP, ETH Zurich


Awards/Fellowships

2017 Young 1000 Talents award (grant details to be announced), People’s Republic of China.

2015 Fellow of London Institute for Mathematical Sciences

2014 Research Fellow of Wolfson College, Oxford University

2003 Nuffield foundation grant for summer project in high-energy physics, Imperial/CERN

2002/3 Prize, Imperial’s Ideas Challenge & 3rd place team, Lee Kuan Yew global business plan competition

1999 Scholarship for academic excellence, Kungsholmens Gymnasium, Stockholm


Selected Publications

Lin, Y. L. and O. Dahlsten (2016). Tunnelling necessitates negative Wigner function. arXiv, arXiv:1607.01764.

Browne, C., T. Farrow, O. Dahlsten, and V. Vedral (2016). Organic molecule fluorescence as an experimental test-bed for quantum jumps in thermodynamics. Sent by editor of Nature Communications to referees.

Vidrighin, M. D., O. Dahlsten, M. Barbieri, M. S. Kim, V. Vedral, and I. A. Walmsley (2016). Photonic Maxwell’s Demon. Phys. Rev. Lett., Editors Sugg. 116 (5), 050401.

Dahlsten, Choi, Braun, Garner, and Vedral (2015). Equality for worst-case work at any protocol speed. Conditionally accepted in NJP, arXiv:1504.05152.

Dahlsten, O. C. O., A. Garner, and V. Vedral (2014). How uncertainty enables non-classical dynamics in an interferometer. Nature Communications (5), 4592.

Garner, A., M. Mueller, and O. Dahlsten (2014). The quantum bit from relativity of simultaneity on an interferometer. e-print, arXiv:1412.7112.

Yunger-Halpern, N., A. Garner, O. Dahlsten, and V. Vedral (2014). Unification of fluctuation theorems and one-shot statistical mechanics. e-print, arXiv:1409.3878.

Yunger-Halpern, N., A. Garner, O. Dahlsten, and V. Vedral (2015). Introducing one-shot work into fluctuation relations. New J. Phys. 17, 095003.

Dahlsten, O., C. Lupo, S. Mancini, and A. Serafini (2014). Entanglement Typicality. J.Phys. A. Math. Theor. 47, 363001.

Browne, C., A. Garner, O. Dahlsten, and V. Vedral (2013). Guaranteed energy efficient bit reset in finite time. Phys. Rev. Lett. 113, 100603.

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