dorsal/arxiv
View SchemaA New Atom Trap: The Annular Shell Atom Trap (ASAT)
| Authors | Herschel S. Pilloff, Marko Horbatsch |
|---|---|
| Categories | |
| ArXiv ID | physics/0204024 |
| URL | https://arxiv.org/abs/physics/0204024 |
Abstract
In the course of exploring some aspects of atom guiding in a hollow, optical fiber, a small negative potential energy well was found just in front of the repulsive or guiding barrier. This results from the optical dipole and the van der Waals potentials. The ground state for atoms bound in this negative potential well was determined by numerically solving the Schrodinger eq. and it was found that this negative well could serve as an atom trap. This trap is referred to as the Annular Shell Atom Trap or ASAT because of the geometry of the trapped atoms which are located in the locus of points defining a very thin annular shell just in front of the guiding barrier. A unique feature of the ASAT is the compression of the atoms from the entire volume to the volume of the annular shell resulting in a very high density of atoms in this trap. This trap may have applications to very low temperatures using evaporative cooling and possibly the formation of BEC. Finally, a scheme is discussed for taking advantage of the de Broglie wavelength to store atoms in a bottle trap based on the inability of long de Broglie wavelengths to escape through a selective de Broglie wavelength filter in the atom bottle trap.
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"abstract": "In the course of exploring some aspects of atom guiding in a hollow, optical\nfiber, a small negative potential energy well was found just in front of the\nrepulsive or guiding barrier. This results from the optical dipole and the van\nder Waals potentials. The ground state for atoms bound in this negative\npotential well was determined by numerically solving the Schrodinger eq. and it\nwas found that this negative well could serve as an atom trap. This trap is\nreferred to as the Annular Shell Atom Trap or ASAT because of the geometry of\nthe trapped atoms which are located in the locus of points defining a very thin\nannular shell just in front of the guiding barrier. A unique feature of the\nASAT is the compression of the atoms from the entire volume to the volume of\nthe annular shell resulting in a very high density of atoms in this trap. This\ntrap may have applications to very low temperatures using evaporative cooling\nand possibly the formation of BEC. Finally, a scheme is discussed for taking\nadvantage of the de Broglie wavelength to store atoms in a bottle trap based on\nthe inability of long de Broglie wavelengths to escape through a selective de\nBroglie wavelength filter in the atom bottle trap.",
"arxiv_id": "physics/0204024",
"authors": [
"Herschel S. Pilloff",
"Marko Horbatsch"
],
"categories": [
"physics.atom-ph",
"physics.optics"
],
"title": "A New Atom Trap: The Annular Shell Atom Trap (ASAT)",
"url": "https://arxiv.org/abs/physics/0204024"
},
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