Ultracold quantum matter

Observation of the 1S-2S transition in atomic hydrogen in an atomic beam

Journal of Physics B: Atomic, Molecular and Optical Physics 23:11 (1990)

Authors:

CJ Foot, P Hannaford, DN Stacey, CD Thompson, GH Woodman, PEG Baird, JB Swan, GK Woodgate

Abstract:

The authors report the observation of the 1S-2S two-photon transition in atomic hydrogen in an atomic beam, excited by light from a narrow-band continuous-wave laser. The excitation takes place in a collision-free environment and detection of the resonance is carried out by Stark-quenching the metastable atoms some distance from the interaction region. This approach removes the limitations of cell excitation employed in previous experiments with continuous-wave lasers, and should allow the full precision of modern tunable laser techniques to be applied to the 1S-2S transition. It also gives a new method for producing a collimated beam of metastable atoms which has particular applications to a variety of future experiments with cold hydrogen.

Multiphoton laser cooling

Nature Springer Nature 347:6289 (1990) 127-128

Authors:

Andrew Steane, Christopher Foot

Laser-cooled atoms cooperate

Nature Springer Nature 344:6266 (1990) 490-491

Authors:

Christopher Foot, Andrew Steane

Laser spectroscopy of the 1S-2S transition in hydrogen and deuterium: Determination of the 1S Lamb shift and the Rydberg constant.

Phys Rev A Gen Phys 40:11 (1989) 6169-6184

Authors:

MG Boshier, PE Baird, CJ Foot, EA Hinds, MD Plimmer, DN Stacey, JB Swan, DA Tate, DM Warrington, GK Woodgate

Isotope shift in xenon by Doppler-free two-photon laser spectroscopy

Journal of Physics B: Atomic, Molecular and Optical Physics 22:10 (1989) L241-L244

Authors:

MD Plimmer, PEG Baird, CG Foot, DN Stacey, JB Swan, GK Woodgate

Abstract:

Isotope shifts and pressure broadening have been measured in the two-photon transition at 249 nm from the 5p61S0 ground level of neutral xenon to a J=0 level of the 5p56p configuration (the 2p5 level in Paschen notation). A continuous-wave tunable dye laser operating at 498 nm with intracavity frequency doubling excited the transition. The work is the first application of Doppler-free laser spectroscopy to a transition involving the ground level of a rare gas. The results show that although no s electron is directly involved in the transition, the field isotope shifts are comparable with those observed in transitions of the type 6s-np. © 1989 IOP Publishing Ltd.