Prof Vlatko Vedral FInstP

Vacuum induced Berry phase: Theory and experimental proposal

Journal of Modern Optics 50:6-7 (2003) 1175-1181

Authors:

S Bose, A Carollo, I Fuentes-Guridi, MF Santos, V Vedral

Abstract:

We investigate quantum effects in geometric phases arising when a two-level system is interacting with a quantized electromagnetic field. When the system is adiabatically driven along a closed loop in the parameter space, signatures of the field quantization are observable in the geometric phase. We propose a feasible experiment to measure these effects in cavity QED and also analyse the semi-classical limit, recovering the usual Berry phase results.

Vacuum induced berry phase: Theory and experimental proposal

Journal of Modern Optics Informa UK Limited 50:6-7 (2003) 1175-1181

Authors:

Sougato Bose, Angelo Carollo, Ivette Fuentes-guridi, Marcelo França Santos, Vlatko Vedral

GEOMETRIC PHASES AND TOPOLOGICAL QUANTUM COMPUTATION

International Journal of Quantum Information World Scientific Publishing 1:01 (2003) 1-23

Topological Quantum Gates with Quantum Dots

(2003)

Authors:

Jiannis K Pachos, Vlatko Vedral

Classical correlations and entanglement in quantum measurements.

Phys Rev Lett 90:5 (2003) 050401

Abstract:

We analyze a quantum measurement where the apparatus is initially in a mixed state. We show that the amount of information gained in a measurement is not equal to the amount of entanglement between the system and the apparatus, but is instead equal to the degree of classical correlations between the two. As a consequence, we derive an uncertainty-like expression relating the information gain in the measurement and the initial mixedness of the apparatus. Final entanglement between the environment and the apparatus is also shown to be relevant for the efficiency of the measurement.