We explore the three-body problem in two dimensions using the adiabatic hyperspherical
representation. We develop the main equations in terms of democratic hyperangular …

We study the statics and dynamics of a binary dipolar Bose–Einstein condensate soliton for
repulsive inter and intraspecies contact interactions with the two components subject to …

The universal aspects of two-body collisions in the presence of a harmonic confinement are
investigated for both bosons and fermions. The main focus of this study are the confinement …

We discuss the three-body properties of identical bosons exhibiting large scattering length in
two spatial dimensions. Within an effective field theory for resonant interactions, we calculate …

Atom interferometers typically use the total populations at the interferometer's output ports as
the signal, but useful information can be encoded into spatial phase patterns. An …

We develop and analyze a theoretical model which yields the shifts and widths of Feshbach
resonances in an atomic waveguide. It is based on a multichannel approach for confinement …

We present an analysis of Bose-Fermi mixtures in optical lattices for the case where the
lattice potential of the fermions is tilted and the bosons (in the superfluid phase) are …

Confinement properties of the 1+ 1 Schwinger model can be studied by computing the string
tension between two charges. It is finite (vanishing) if the fermions are massive (massless) …

We investigate the quantum phases of mixed-dimensional cold atom mixtures. In particular,
we consider a mixture of a Fermi gas in a two-dimensional lattice, interacting with a bulk …

Our paper referenced above presented a precise measurement of the scalar tune-out
wavelength near 790 nm in 87Rb. We have discovered a few errors in the analysis of our …