Your search keyword '"David T. Pegg"' showing total 3 results

1. Intrinsic phase coherence of laser light

Author

David T. Pegg

Subjects

Physics, Quantum optics, Coherence time, Photon, business.industry, Physics::Optics, Laser, Atomic and Molecular Physics, and Optics, Light scattering, law.invention, Optics, law, Light beam, business, Beam (structure), Coherence (physics)

Abstract

We examine the phase relationships between different packets of a beam of light emitted from a cavity through a partially transmitting mirror. We find that the beam has a pronounced phase coherence even when the intracavity field has a completely indeterminate phase such as, for example, when it is in a pure photon number state. In this case, the phase coherence can be directly attributed to entanglement caused by the partially transmitting mirror and, even though the external light has phase coherence, it has no identifiable phase. Consequently there is no phase diffusion but there is diffusion of the phase difference between a packet and the intracavity field. Remarkably, we find that the phase coherence of the beam is almost independent of the intracavity state, provided this has a reasonably narrow number-state distribution about a large mean value.

Published

2009

2. Measurement master equation

Author

David T. Pegg, John Jeffers, Stephen M. Barnett, and James D. Cresser

Subjects

Quantum optics, Electromagnetic field, Physics, Quantum Physics, Rabi cycle, business.industry, FOS: Physical sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, Atom, Master equation, Quantum system, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, business, Quantum Physics (quant-ph), Quantum, Quantum Zeno effect

Abstract

We derive a master equation describing the evolution of a quantum system subjected to a sequence of observations. These measurements occur randomly at a given rate and can be of a very general form. As an example, we analyse the effects of these measurements on the evolution of a two-level atom driven by an electromagnetic field. For the associated quantum trajectories we find Rabi oscillations, Zeno-effect type behaviour and random telegraph evolution spawned by mini quantum jumps as we change the rates and strengths of measurement., 14 pages and 8 figures, Optics Communications in press

Published

2006

3. Master equation for retrodiction of quantum communication signals

Author

Stephen M. Barnett, David T. Pegg, John Jeffers, and Ottavia Jedrkiewicz

Subjects

Physics, Quantum Physics, Mathematical sciences, business.industry, FOS: Physical sciences, General Physics and Astronomy, Open system (systems theory), Open quantum system, QC350, Master equation, Retrodiction, Statistical physics, Photonics, Quantum Physics (quant-ph), Quantum information science, business

Abstract

We derive the master equation that governs the evolution of the measured state backwards in time in an open system. This allows us to determine probabilities for a given set of preparation events from the results of subsequent measurements, which has particular relevance to quantum communication., Comment: 14 pages, no figures

Published

2001