Erik Gauger

Research Fellow

+44 (0)131 451 3345
Room 1.10
David Brewster Building
Heriot-Watt University
Roles and responsibilities
  • Deputy Head of Physics teaching

Our research on the theory of quantum nanostructures is motivated by the prospect of next generation quantum technologies for energy, sensing, and information processing.

Exploring the interface of condensed matter physics, quantum optics, -information, and -biology, we utilise cutting-edge analytical and numerical techniques to study the rich and complex quantum properties of engineered and natural nanostructures (such as for example semiconductor quantum dots, NV- centres in diamond, molecular systems). We are particularly interested in how these systems can be controlled and harnessed for practical applications and novel quantum technologies. Much of our work is performed in close collaboration with experimental colleagues.

For more information please see the Quantum Technology Theory group website.

Selected publications
  1. Superabsorption of light via quantum engineering, K. D. B. Higgins, S. C. Benjamin, T. Stace, G. J. Milburn, B. W. Lovett, E. M. Gauger, Nature Communications 5:4705 DOI: 10.1038/ncomms5705 (2014). Research Highlight in Nature Photonics and featured in PhysicsWorld.
  2. When amplification with weak values fails to suppress technical noise, G. C. Knee, E. M. Gauger, Physical Review X 4, 011032 (2014).
  3. Practicality of Spin Chain Wiring in Diamond Quantum Technologies, Y. Ping, B. W. Lovett, S. C. Benjamin, E. M. Gauger. Physical Review Letters 110, 100503 (2013). Research Highlight of the Asian Pacific Physics Newsletter.
  4. Violation of a Leggett-Garg inequality with ideal non-invasive measurements, G. C. Knee, S. Simmons, E. M. Gauger, J. J. L. Morton, H. Riemann, N. V. Abrosimov, P. Becker, H.-J. Pohl, K. M. Itoh, M. L. W. Thewalt, G. A. D. Briggs, S. C. Benjamin. Nature Communications 3:606 (doi: 10.1038/ncomms1614) (2012).
  5. Proposed spin amplification for magnetic sensors employing crystal defects, M. Schaffry, E. M. Gauger, J. J. L. Morton, S. C. Benjamin. Physical Review Letters 107 207210 (2011). Editor’s Suggestion and selected for a Physics synopsis.
  6. Sustained quantum coherence and entanglement in the avian compass, E. M. Gauger, E. Rieper, J. J. L. Morton, S. C. Benjamin, and V. Vedral. Physical Review Letters 106, 040503 (2011). Editor’s Suggestion and featured in the New Scientist, Wired, and the popular press.
  7. Damping of exciton Rabi rotations by acoustic phonons in optically excited In- GaAs/GaAs quantum dots, A. J. Ramsay, A. V. Gopal, E. M. Gauger, A. Nazir, B. W. Lovett, A. M. Fox, and M. S. Skolnick. Physical Review Letters 104 017402 (2010).

Erik Gauger has joined IPaQS in January 2015 as a Royal Society of Edinburgh / Scottish Government Personal Research Fellow and Assistant Professor at Heriot-Watt University. Previously he received a Diplom degree in physics from the University of Konstanz (2005) before taking up a Marie Curie Early Stage Research Training Fellowship to obtain a DPhil from the University of Oxford (2009). Following a postdoctoral appointment at Oxford (2009-2011), Erik held appointments as Research Fellow and Senior Research Fellow at the Centre for Quantum Technologies, National University of Singapore (2011-2014).