Imaging is central to gaining microscopic insight into physical systems, and new microscopy
methods have always led to the discovery of new phenomena and a deeper understanding …

Established techniques for deterministically creating dark solitons in repulsively interacting
atomic Bose-Einstein condensates (BECs) can only access a narrow range of soliton …

We numerically demonstrate atomic Fabry–Perot resonances for a pulsed interacting Bose–
Einstein condensate (BEC) source transmitting through double Gaussian barriers. These …

Studies in cold quantum gases enjoy a tight coupling between theory and experiment. Many
properties of Bose–Einstein condensates are well modelled by mean-field theory and …

This thesis presents a novel magnetic resonance imaging (MRI) technique for spinor Bose-
Einstein condensates (BEC) with the paramagnetic Faraday effect. This quantumphoton …

This thesis reports the implementation of a matter wave optics protocol for the magnification
of quantum gases. The protocol consists of a quarter period evolution in a harmonic trap …

Ultracold gases in optical lattice are promising quantum simulation platforms: neutral atoms
can be cooled down to quantum degeneracy and loaded into the lattice, thus mimicking the …