Professor Christopher Foot

Observation of light-induced coherence loss in a caesium atomic fountain

Journal of Physics B: Atomic, Molecular and Optical Physics 31:3 (1998) 375-381

Authors:

PD Featonby, CL Webb, GS Summy, CJ Foot, K Burnett

Abstract:

We report on an experimental measurement of the phase shifts associated with the AC Stark effect. The optically induced light shift was measured using a Ramsey fringe technique and we have made detailed studies of the potential sources of coherence loss that can occur for an atomic sample manipulated by light. We investigated the loss of coherence due to the light shifts induced by using a non-uniform laser beam and the effects of scattered light. These measurements have implications for experiments which use optical techniques for manipulating atomic wavepackets in atom optics and atom interferometry.

Atomic dipole trap formed by blue detuned strong Gaussian standing wave

Optics Communications 146:1-6 (1998) 119-123

Authors:

P Zemánek, CJ Foot

Abstract:

We have investigated the properties of a standing-wave configuration of Gaussian laser beams which gives a linear array of three-dimensional atomic dipole traps. This is achieved by two counter-propagating waves with different beam waists so that at the nodes the field intensity of the standing wave is not completely cancelled at all radial positions across the beam. This creates an intensity dip in both the axial and radial directions that can be used as an atomic trap for blue detuning of the light. We simulated the behaviour of two level atoms in this trap using dressed state Monte-Carlo method and in this paper we show that it gives good trapping when the residual intensity at the bottom of the traps is small. © 1998 Elsevier Science B.V.

Coherence Measurements using a Novel Atom Interferometer

Optics InfoBase Conference Papers (1998)

Authors:

PD Featonby, CL Webb, RM Lake, MK Oberthaler, GS Summy, CJ Foot, K Burnett

Separated-path ramsey atom interferometer

Physical Review Letters 81:3 (1998) 495-499

Authors:

PD Featonby, GS Summy, CL Webb, RM Godun, MK Oberthaler, AC Wilson, CJ Foot, K Burnett

Abstract:

We demonstrate a novel type of cesium atom interferometer which uses a combination of a microwave ground state transition and momentum changing adiabatic transfer light pulses as the atom optical components. It is the first atom interferometer where the mechanism which forms the internal superposition plays no part in spatially splitting the atomic wave packets. The coherence length of the atom source is found by measuring the spatial correlation between the two interferometer arms. This allows us to determine the temperature of the atomic ensemble. © 1998 The American Physical Society.

Atomic dipole trap formed by a Gaussian standing wave

P SOC PHOTO-OPT INS 3580 (1998) 102-110

Authors:

P Zemanek, CJ Foot

Abstract:

We suggest an atomic dipole trap which is produced by two counter-propagating Gaussian beams with different waists. This set-up creates an intensity dip in axial and radial directions near the node of the standing wave and can be used as an atom trap for blue detuning of the light. We simulated the behaviour of two level atoms in this trap using the dressed state Monte-Carlo method and we show that it gives a goad trapping when the residual intensity at the bottom of traps is small.