We show that a two-channel mean-field theory for a Bose gas near a Feshbach resonance allows for an analytic computation of the chemical potential, and therefore the universal constant β, at unitarity. To improve on this mean-field theory, which physically neglects condensate depletion, we study a variational Jastrow ansatz for the ground-state wave function and use the hypernetted-chain approximation to minimize the energy for all positive values of the scattering length. We also show that other important physical quantities such as Tan’s contact and the condensate fraction can be directly obtained from this approach
In this paper, we study the phase diagram of a homogeneous Bose gas with a repulsive interaction nea...
The lowest order constrained variational method [Phys. Rev. Lett. 88 (2002) 210403] has been general...
The susceptibility of ultracold gases to precise manipulation via external fields makes them ideal s...
A Feshbach resonance in the s-wave scattering length occurs if the energy of the two atoms in the i...
To study the behavior of atomic Fermi gases in the vicinity of Feshbach resonance, M. Holland et al....
Bose-Einstein condensation (BEC) of Feshbach molecules in a homogeneous Bose gas is studied at finit...
We theoretically investigate the equation of state and Tan's contact of a nondegenerate three-dimens...
The molecular bound states of atomic quantum gases near a Feshbach resonance were analyzed. It was o...
We study the ground state of a trapped Bose gas, starting from the full many-body Schrödinger Hamilt...
In the first part of this thesis, we present an inhomogeneous theory for the low-temperature propert...
The major focus of this thesis is the dynamic effects of Feshbach resonances on Bragg scattering fro...
In this thesis, we investigated the physics of two- and three-dimensional ultra cold Bose gases in t...
The kinetic and interaction energies of a three-dimensional (3D) dilute ground-state Bose gas confin...
The energy and structure of a dilute hard-disks Bose gas are studied in the framework of a variation...
Feshbach resonances notwithstanding, most experimentally realized atomic-vapor condensates are dilut...
In this paper, we study the phase diagram of a homogeneous Bose gas with a repulsive interaction nea...
The lowest order constrained variational method [Phys. Rev. Lett. 88 (2002) 210403] has been general...
The susceptibility of ultracold gases to precise manipulation via external fields makes them ideal s...
A Feshbach resonance in the s-wave scattering length occurs if the energy of the two atoms in the i...
To study the behavior of atomic Fermi gases in the vicinity of Feshbach resonance, M. Holland et al....
Bose-Einstein condensation (BEC) of Feshbach molecules in a homogeneous Bose gas is studied at finit...
We theoretically investigate the equation of state and Tan's contact of a nondegenerate three-dimens...
The molecular bound states of atomic quantum gases near a Feshbach resonance were analyzed. It was o...
We study the ground state of a trapped Bose gas, starting from the full many-body Schrödinger Hamilt...
In the first part of this thesis, we present an inhomogeneous theory for the low-temperature propert...
The major focus of this thesis is the dynamic effects of Feshbach resonances on Bragg scattering fro...
In this thesis, we investigated the physics of two- and three-dimensional ultra cold Bose gases in t...
The kinetic and interaction energies of a three-dimensional (3D) dilute ground-state Bose gas confin...
The energy and structure of a dilute hard-disks Bose gas are studied in the framework of a variation...
Feshbach resonances notwithstanding, most experimentally realized atomic-vapor condensates are dilut...
In this paper, we study the phase diagram of a homogeneous Bose gas with a repulsive interaction nea...
The lowest order constrained variational method [Phys. Rev. Lett. 88 (2002) 210403] has been general...
The susceptibility of ultracold gases to precise manipulation via external fields makes them ideal s...
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