Add to ORKGTrapped cold atoms at very low temperatures, now readily accessible experimentally, can be controlled and serve as a testing ground for many theoretical physical properties which are paralleled in condensed matter systems. Ultracold trapped atom experiments show promise to recreate analogous condensed matter systems in a controlled environment and to create novel many-body quantum states of matter. The tunability of trapping laser intensities and magnetically controlled Feshbach interactions are the main tools for varying lattice hopping strengths and inter-particle interactions. In this thesis, we search for the phase of a many-body system of cold fermion atoms that can convert to boson molecules and vice versa. We then look at the microsc...
This thesis explores certain extraordinary phenomena that occur when a gas of neutral atoms is coole...
Following the realization of Bose-Einstein condensates in atomic gases, an experimental challenge is...
I present experiments with ultracold atoms which demonstrate a novel avenue to study strongly correl...
The susceptibility of ultracold gases to precise manipulation via external fields makes them ideal s...
We study ultracold gases of alkali-metal atoms in the quantum degenerate regime. The interatomic int...
We use laser light near resonant with a molecular bound-to-bound transition to control a magnetic Fe...
We study the possibility of realizing strong coupled many-body quantum phases in ultracold atomic sy...
This thesis presents experiments exploring Feshbach molecules and Efimov trimers in an ultracold Bos...
Systems consisting of few interacting fermions are the building blocks of matter, with atoms and nuc...
Systems consisting of few interacting fermions are the building blocks of matter, with atoms and nuc...
We present an Asymptotic Bound state Model (ABM), which is useful to predict Feshbach resonances. Th...
We consider the magnetically tunable Feshbach resonances that may exist in ultracold mixtures of mol...
We present an Asymptotic Bound state Model (ABM), which is useful to predict Feshbach resonances. Th...
Ultracold atomic gas experiments have proven to be a versatile ground for studying quantum mechanics...
We consider the magnetically tunable Feshbach resonances that may exist in ultracold mixtures of mol...
This thesis explores certain extraordinary phenomena that occur when a gas of neutral atoms is coole...
Following the realization of Bose-Einstein condensates in atomic gases, an experimental challenge is...
I present experiments with ultracold atoms which demonstrate a novel avenue to study strongly correl...
The susceptibility of ultracold gases to precise manipulation via external fields makes them ideal s...
We study ultracold gases of alkali-metal atoms in the quantum degenerate regime. The interatomic int...
We use laser light near resonant with a molecular bound-to-bound transition to control a magnetic Fe...
We study the possibility of realizing strong coupled many-body quantum phases in ultracold atomic sy...
This thesis presents experiments exploring Feshbach molecules and Efimov trimers in an ultracold Bos...
Systems consisting of few interacting fermions are the building blocks of matter, with atoms and nuc...
Systems consisting of few interacting fermions are the building blocks of matter, with atoms and nuc...
We present an Asymptotic Bound state Model (ABM), which is useful to predict Feshbach resonances. Th...
We consider the magnetically tunable Feshbach resonances that may exist in ultracold mixtures of mol...
We present an Asymptotic Bound state Model (ABM), which is useful to predict Feshbach resonances. Th...
Ultracold atomic gas experiments have proven to be a versatile ground for studying quantum mechanics...
We consider the magnetically tunable Feshbach resonances that may exist in ultracold mixtures of mol...
This thesis explores certain extraordinary phenomena that occur when a gas of neutral atoms is coole...
Following the realization of Bose-Einstein condensates in atomic gases, an experimental challenge is...
I present experiments with ultracold atoms which demonstrate a novel avenue to study strongly correl...