Add to ORKGWe construct three-dimensional solutions of Maxwell’s equations that describe Gaussian light beams focused by a strong lens. We investigate the interaction of such beams with single atoms in free space and the interplay between angular and quantum properties of the scattered radiation. We compare the exact results with those obtained with paraxial light beams and from a standard input-output formalism. We put our results in the context of quantum information processing with single atoms
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using...
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...
We calculate exact 3-D solutions of Maxwell equations corresponding to strongly focused light beams,...
In this article we theoretically study the phase shift a single atom imprints onto a coherent state ...
In this article we theoretically study the phase shift a single atom imprints onto a coherent state ...
In this project, we present a novel approach to calculate and engineer the photon correlations emerg...
We describe the resonant interaction of an atom with a strongly focused light beam by expanding the ...
I explore the limits of how tightly a beam can be focused, and derive a focal parameter for scalar b...
Current experiments in our group explore the quantum interface between matter and light, with the go...
The focusing of atoms interacting with both far-detuned and resonant standing wave fields in the thi...
AbstractThe coherent manipulation of the atomic matter waves is of great interest both in science an...
An atom strongly coupled to a high-finesse resonator forms a microscopic optical system in which th...
A principal goal of distributed quantum processing is the ability to generate, manipulate, and trans...
A principal goal of distributed quantum processing is the ability to generate, manipulate, and trans...
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using...
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...
We calculate exact 3-D solutions of Maxwell equations corresponding to strongly focused light beams,...
In this article we theoretically study the phase shift a single atom imprints onto a coherent state ...
In this article we theoretically study the phase shift a single atom imprints onto a coherent state ...
In this project, we present a novel approach to calculate and engineer the photon correlations emerg...
We describe the resonant interaction of an atom with a strongly focused light beam by expanding the ...
I explore the limits of how tightly a beam can be focused, and derive a focal parameter for scalar b...
Current experiments in our group explore the quantum interface between matter and light, with the go...
The focusing of atoms interacting with both far-detuned and resonant standing wave fields in the thi...
AbstractThe coherent manipulation of the atomic matter waves is of great interest both in science an...
An atom strongly coupled to a high-finesse resonator forms a microscopic optical system in which th...
A principal goal of distributed quantum processing is the ability to generate, manipulate, and trans...
A principal goal of distributed quantum processing is the ability to generate, manipulate, and trans...
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using...
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...