Add to ORKGCavity quantum electrodynamics (cavity QED) describes electromagnetic fields in a confined space and the radiative properties of atoms in such fields. The simplest example of such system is a single atom interacting with one mode of a high-finesse resonator. Besides observation and exploration of fundamental quantum mechanical effects, this system bears a high potential for applications quantum information science such as, e.g., quantum logic gates, quantum communication and quantum teleportation. In this thesis I present an experiment on the deterministic coupling of a single neutral atom to the mode of a high-finesse optical resonator. In Chapter 1 I describe our basic techniques for trapping and observing single cesium atoms. As a source...
The number of atoms trapped within the mode of an optical cavity is determined in real time by monit...
The enhanced coupling between atoms and photons inside a high-finesse optical cavity provides a nove...
Current experiments in our group explore the quantum interface between matter and light, with the go...
Ultracold neutral atoms confined in optical dipole traps have important applications in quantum comp...
Ultracold neutral atoms confined in optical dipole traps have important applications in quantum comp...
A variety of experiments are underway in the Quantum Optics Group at Caltech which investigate the q...
A variety of experiments are underway in the Quantum Optics Group at Caltech which investigate the q...
The experiments discussed in this thesis focus on the interaction of a single trapped atom with the ...
Cavity quantum electrodynamics (QED) offers powerful possibilities for the deterministic control of ...
In this thesis I present an experimental realization of controlled systems consisting of trapped neu...
Individual laser cooled atoms are delivered on demand from a single atom magneto-optic trap to a hig...
A neutral atom interacting with a single mode of a high finesse cavity provides an opportunity to st...
In recent years, remarkable advances in the science of laser cooling and trapping of atomic samples ...
The present work investigates the state-selective transport of single neutral cesium atoms in a one-...
Two recent experiments are discussed which demonstrate real-time trapping and monitoring of single a...
The number of atoms trapped within the mode of an optical cavity is determined in real time by monit...
The enhanced coupling between atoms and photons inside a high-finesse optical cavity provides a nove...
Current experiments in our group explore the quantum interface between matter and light, with the go...
Ultracold neutral atoms confined in optical dipole traps have important applications in quantum comp...
Ultracold neutral atoms confined in optical dipole traps have important applications in quantum comp...
A variety of experiments are underway in the Quantum Optics Group at Caltech which investigate the q...
A variety of experiments are underway in the Quantum Optics Group at Caltech which investigate the q...
The experiments discussed in this thesis focus on the interaction of a single trapped atom with the ...
Cavity quantum electrodynamics (QED) offers powerful possibilities for the deterministic control of ...
In this thesis I present an experimental realization of controlled systems consisting of trapped neu...
Individual laser cooled atoms are delivered on demand from a single atom magneto-optic trap to a hig...
A neutral atom interacting with a single mode of a high finesse cavity provides an opportunity to st...
In recent years, remarkable advances in the science of laser cooling and trapping of atomic samples ...
The present work investigates the state-selective transport of single neutral cesium atoms in a one-...
Two recent experiments are discussed which demonstrate real-time trapping and monitoring of single a...
The number of atoms trapped within the mode of an optical cavity is determined in real time by monit...
The enhanced coupling between atoms and photons inside a high-finesse optical cavity provides a nove...
Current experiments in our group explore the quantum interface between matter and light, with the go...