Add to ORKGThe theory of cooling neutral atoms to microkelvin temperatures using a magneto optical trap will be presented. The system that is discussed uses a stabilized grating tuned diode laser that is controlled using feedback from a saturation absorption spectrophotometer to produce narrow band continuously tunable IR light for trapping rubidium atoms. A description of the design and construction of each of the components used to create the magneto optical trap will also be discussed. In the final section a description of an exceptionally accurate atomic clock that is used to measure the natural resonance frequency of laser cooled cesium atoms is also presented
Laser cooling and trapping techniques made possible during the last two decades important achievemen...
We describe a setup for a deep optical dipole trap or lattice designed for holding atoms at temperat...
The aim of this research is to pave the way for making a trap for cold neutral atoms based on the fo...
Abstract: The ability to cool, manipulate, and trap atoms using laser light has allowed a new, rapid...
The NBS-Gaithersburg experiments on laser deceleration and cooling of atomic beams are reviewed. The...
In this final year project, 2 tunable laser systems are constructed for the purpose of cooling and t...
The study of atomic quantum behavior requires that atoms be in a low energy, low temperature state s...
The advent of the magneto-optical trap (MOT) introduced to the field of atomic physics an unpreceden...
The forces felt by atoms when illuminated with resonant radiation can reduce their velocity dispersi...
A setup for laser cooling and confining of 7Li atoms in a magneto-optical trap has been built. The p...
We have studied the relationship between the temperature of Cs cold atoms and the parameters of the ...
Laser cooling and trapping has been essential to the study of ultracold atoms. Conventionally, conti...
We describe a new system for laser cooling and trapping of neutral Calcium atoms employing the ¹S0 -...
A detailed experimental and theoretical investigation of a magneto-optical trap for caesium atoms is...
Abstract. We report on a theoretical and experimental investigation of 39K magneto{optical trapping....
Laser cooling and trapping techniques made possible during the last two decades important achievemen...
We describe a setup for a deep optical dipole trap or lattice designed for holding atoms at temperat...
The aim of this research is to pave the way for making a trap for cold neutral atoms based on the fo...
Abstract: The ability to cool, manipulate, and trap atoms using laser light has allowed a new, rapid...
The NBS-Gaithersburg experiments on laser deceleration and cooling of atomic beams are reviewed. The...
In this final year project, 2 tunable laser systems are constructed for the purpose of cooling and t...
The study of atomic quantum behavior requires that atoms be in a low energy, low temperature state s...
The advent of the magneto-optical trap (MOT) introduced to the field of atomic physics an unpreceden...
The forces felt by atoms when illuminated with resonant radiation can reduce their velocity dispersi...
A setup for laser cooling and confining of 7Li atoms in a magneto-optical trap has been built. The p...
We have studied the relationship between the temperature of Cs cold atoms and the parameters of the ...
Laser cooling and trapping has been essential to the study of ultracold atoms. Conventionally, conti...
We describe a new system for laser cooling and trapping of neutral Calcium atoms employing the ¹S0 -...
A detailed experimental and theoretical investigation of a magneto-optical trap for caesium atoms is...
Abstract. We report on a theoretical and experimental investigation of 39K magneto{optical trapping....
Laser cooling and trapping techniques made possible during the last two decades important achievemen...
We describe a setup for a deep optical dipole trap or lattice designed for holding atoms at temperat...
The aim of this research is to pave the way for making a trap for cold neutral atoms based on the fo...