Add to ORKGWe describe the use of magnetic optical elements for manipulating beams of laser-cooled neutral atoms for atom optics and atom interferometry. Results are presented for the reflection of free-falling, laser-cooled caesium atoms from periodic structures consisting of an array of permanent rare-earth magnets of alternating polarity, ferromagnetic grid structures with micron-scale periodicities, and an array of parallel wires alternately carrying current in opposite directions
Clouds of cold atoms, collected and refrigerated by laser light, can be cooled to nanoKelvin tempera...
Abstract. A fast packet of cold atoms is coupled into a magnetic guide and subsequently slowed down ...
We introduce a new direction in the field of atom optics, atom interferometry, and neutral-atom quan...
There is a need in atom optics and atom interferometry for high quality atomic mirrors and beamsplit...
We describe the use of permanent magnetic microstructures based on grooved, perpendicularly magnetis...
In the first part of this article we attempt to provide a very brief introduction to atom optics. In...
We report progress in our project on Integrated Atom Optics. We are exploring methods of producing s...
Atom optics, in analogy to electron or neutron optics, is concerned with the manipulation of atomic ...
The theory of cooling neutral atoms to microkelvin temperatures using a magneto optical trap will be...
We report the realization of a new type of magnetostatic mirror for slowly moving atoms which compri...
A flexible and relatively simple and cheap optical dipole mirror for cold rubidium atoms from magnet...
We report the results from a series of experiments in which ferromagnetic thin films were used as at...
We describe a new system for laser cooling and trapping of neutral Calcium atoms employing the ¹S0 -...
Advances in laser cooling techniques have made it possible to prepare atomic samples with temperatur...
Clouds of cold atoms, collected and refrigerated by laser light, can be cooled to nanoKelvin tempera...
Clouds of cold atoms, collected and refrigerated by laser light, can be cooled to nanoKelvin tempera...
Abstract. A fast packet of cold atoms is coupled into a magnetic guide and subsequently slowed down ...
We introduce a new direction in the field of atom optics, atom interferometry, and neutral-atom quan...
There is a need in atom optics and atom interferometry for high quality atomic mirrors and beamsplit...
We describe the use of permanent magnetic microstructures based on grooved, perpendicularly magnetis...
In the first part of this article we attempt to provide a very brief introduction to atom optics. In...
We report progress in our project on Integrated Atom Optics. We are exploring methods of producing s...
Atom optics, in analogy to electron or neutron optics, is concerned with the manipulation of atomic ...
The theory of cooling neutral atoms to microkelvin temperatures using a magneto optical trap will be...
We report the realization of a new type of magnetostatic mirror for slowly moving atoms which compri...
A flexible and relatively simple and cheap optical dipole mirror for cold rubidium atoms from magnet...
We report the results from a series of experiments in which ferromagnetic thin films were used as at...
We describe a new system for laser cooling and trapping of neutral Calcium atoms employing the ¹S0 -...
Advances in laser cooling techniques have made it possible to prepare atomic samples with temperatur...
Clouds of cold atoms, collected and refrigerated by laser light, can be cooled to nanoKelvin tempera...
Clouds of cold atoms, collected and refrigerated by laser light, can be cooled to nanoKelvin tempera...
Abstract. A fast packet of cold atoms is coupled into a magnetic guide and subsequently slowed down ...
We introduce a new direction in the field of atom optics, atom interferometry, and neutral-atom quan...