Professor Ian Walmsley CBE FRS FCGI

Heralded generation of ultrafast single photons in pure quantum States.

Phys Rev Lett 100:13 (2008) 133601

Authors:

Peter J Mosley, Jeff S Lundeen, Brian J Smith, Piotr Wasylczyk, Alfred B U'Ren, Christine Silberhorn, Ian A Walmsley

Abstract:

We present an experimental demonstration of heralded single photons prepared in pure quantum states from a parametric down-conversion source. It is shown that, through controlling the modal structure of the photon pair emission, one can generate pairs in factorable states and thence eliminate the need for spectral filters in multiple-source interference schemes. Indistinguishable heralded photons were generated in two independent spectrally engineered sources and Hong-Ou-Mandel interference observed between them without spectral filters. The measured visibility of 94.4% sets a minimum bound on the mean photon purity.

Secure quantum key distribution using continuous variables of single photons.

Phys Rev Lett 100:11 (2008) 110504

Authors:

Lijian Zhang, Christine Silberhorn, Ian A Walmsley

Abstract:

We analyze the distribution of secure keys using quantum cryptography based on the continuous variable degree of freedom of entangled photon pairs. We derive the information capacity of a scheme based on the spatial entanglement of photons from a realistic source, and show that the standard measures of security known for quadrature-based continuous variable quantum cryptography (CV-QKD) are inadequate. A specific simple eavesdropping attack is analyzed to illuminate how secret information may be distilled well beyond the bounds of the usual CV-QKD measures.

Looking to the future of quantum optics.

Science 319:5867 (2008) 1211-1213

Abstract:

Light has provided both fundamental phenomenology and enabling technology for scientific discovery for many years, and today it continues to play a central role in fundamental explorations and innovative applications. The ability to manipulate light beams and pulses with the quantum degrees of freedom of optical radiation will add to those advances. The future of quantum optics, which encompasses both the generation and manipulation of nonclassical radiation, as well as its interaction with matter, lies in the rich variety of quantum states that is now becoming feasible to prepare, together with the numerous applications in sensing, imaging, metrology, communications, and information processing that such states enable.

Fabrication of Ultrathin Single-Crystal Diamond Membranes

ADVANCED MATERIALS 20:24 (2008) 4793-+

Authors:

Barbara A Fairchild, Paolo Olivero, Sergey Rubanov, Andrew D Greentree, Felix WaIdermann, Robert A Taylor, Ian Walmsley, Jason M Smith, Shane Huntington, Brant C Gibson, David N Jamieson, Steven Prawer

Gold-SPIDER: spectral phase interferometry for direct electric field reconstruction utilizing sum-frequency generation from a gold surface

JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS 25:6 (2008) A13-A16

Authors:

Matthew E Anderson, Tobias Witting, Ian A Walmsley