Atom-photon connection

Dataset for "How to administer an antidote to Schrödinger’s cat"

University of Oxford (2021)

Authors:

Juan Alvarez Velasquez, Mark IJspeert, Oliver Barter, Benjamin Yuen, Thomas D Barrett, Dustin Stuart, Jerome Dilley, Annemarie Holleczek, Axel Kuhn

Abstract:

Experimental data gathered in laboratory, recorded by Single Photon Counting Modules.

Pushing Purcell enhancement beyond its limits

NEW JOURNAL OF PHYSICS 22:6 (2020) ARTN 063013

Authors:

Thomas D Barrett, Thomas H Doherty, Axel Kuhn

Roadmap on STIRAP applications

ArXiv 1908.01611 (2019)

Authors:

Klaas Bergmann, Hanns-Christoph Nägerl, Cristian Panda, Gerald Gabrielse, Eduard Miloglyadov, Martin Quack, Georg Seyfang, Gunther Wichmann, Silke Ospelkaus, Axel Kuhn, Stefano Longhi, Alexander Szameit, Philipp Pirro, Burkard Hillebrands, Xue-Feng Zhu, Jie Zhu, Michael Drewsen, Winfried K Hensinger, Sebastian Weidt, Thomas Halfmann, Hailin Wang, GS Paraoanu, Nikolay V Vitanov, J Mompart, Th Busch, Timothy J Barnum, David D Grimes, Robert W Field, Mark G Raizen, Edvardas Narevicius, Marcis Auzinsh, Dmitry Budker, Adriana Pálffy, Christoph H Keitel

Birefringent cavities: effects and applications of a new paradigm in CQED

Institute of Electrical and Electronics Engineers (IEEE) 00 (2019) 1-1

Authors:

Thomas D Barrett, Thomas H Doherty, Ben Yuen, Axel Kuhn

Birefringent cavities: Effects and applications of a new paradigm in CQED

Optics InfoBase Conference Papers Part F143-EQEC 2019 (2019)

Authors:

TD Barrett, TH Doherty, B Yuen, A Kuhn

Abstract:

The enhanced interaction of quantum states of light and matter within an optical resonator is a powerful tool for both addressing fundamental questions of nature and pursuing quantum technologies. Here, we discuss the impact of cavity birefringence - a lifting of the degeneracy of polarisation modes within the resonator - on both of these challenges. A novel model for such systems is experimentally verified by the cavity emission of single photons with time-dependent polarisation states that evolve along their wavepacket [1]. This model is then used to demonstrate how a tailored birefringence allows for enhanced photon emission beyond previous limitations [2].