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Nanomagnetic engineering of the properties of domain wall atom traps (2011)
Journal Article
Hayward, T., West, A., Weatherill, K., Schrefl, T., Hughes, I., & Allwood, D. (2011). Nanomagnetic engineering of the properties of domain wall atom traps. Journal of Applied Physics, 110(12), Article 123918. https://doi.org/10.1063/1.3671631

We have used the results of micromagnetic simulations to investigate the effects of nanowire geometry and domain wall magnetization structure on the characteristic parameters of magnetic atom traps formed by domain walls in planar ferromagnetic nanow... Read More about Nanomagnetic engineering of the properties of domain wall atom traps.

Absolute absorption on the rubidium D1 line including resonant dipole–dipole interactions (2011)
Journal Article
Weller, L., Bettles, R., Siddons, P., Adams, C., & Hughes, I. (2011). Absolute absorption on the rubidium D1 line including resonant dipole–dipole interactions. Journal of Physics B: Atomic, Molecular and Optical Physics, 44(19), Article 195006. https://doi.org/10.1088/0953-4075/44/19/195006

Here we report on measurements of the absolute absorption spectra of dense rubidium vapour on the D1 line in the weak-probe regime for temperatures up to 170 °C and number densities up to 3 × 1014 cm−3. In such vapours, modifications to the homogeneo... Read More about Absolute absorption on the rubidium D1 line including resonant dipole–dipole interactions.

An analytical model of off-resonant Faraday rotation in hot alkali metal vapours (2011)
Journal Article
Kemp, S. L., Hughes, I. G., & Cornish, S. L. (2011). An analytical model of off-resonant Faraday rotation in hot alkali metal vapours. Journal of Physics B: Atomic, Molecular and Optical Physics, 44(23), Article 235004. https://doi.org/10.1088/0953-4075/44/23/235004

We report a thorough investigation of the Faraday effect on the 852 nm D2 transition in a hot caesium vapour, culminating in the development of a simple analytical model for off-resonant Faraday rotation. The model, applicable to all hot alkali metal... Read More about An analytical model of off-resonant Faraday rotation in hot alkali metal vapours.