Trapping Rydberg atoms in an optical lattice
KC Younge - Physical review letters, 2011 - APS
Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
Trapping Rydberg atoms in an optical lattice
SE Anderson, KC Younge… - Physical review …, 2011 - pubmed.ncbi.nlm.nih.gov
Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
Trapping Rydberg atoms in an optical lattice
SE Anderson, KC Younge, G Raithel - Physical Review Letters, 2011 - hero.epa.gov
Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
Trapping Rydberg Atoms in an Optical Lattice
SE Anderson, KC Younge… - Physical Review Letters, 2011 - ui.adsabs.harvard.edu
Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
Trapping Rydberg Atoms in an Optical Lattice
SE Anderson, KC Younge, G Raithel - Physical Review Letters, 2011 - inis.iaea.org
[en] Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-
dimensional optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice …
dimensional optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice …
[引用][C] Trapping Rydberg Atoms in an Optical Lattice
SE Anderson, KC Younge, G Raithel - Physical Review Letters, 2011 - par.nsf.gov
Trapping Rydberg Atoms in an Optical Lattice
SE Anderson, KC Younge, G Raithel - Physical Review Letters, 2011 - osti.gov
Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
[PDF][PDF] Trapping Rydberg atoms in an optical lattice
SE Anderson, KC Younge, G Raithel - researchgate.net
Rubidium Rydberg atoms are laser-excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
Trapping Rydberg atoms in an optical lattice.
SE Anderson, KC Younge, G Raithel - Physical Review Letters, 2011 - europepmc.org
Rubidium Rydberg atoms are laser excited and subsequently trapped in a one-dimensional
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
optical lattice (wavelength 1064 nm). Efficient trapping is achieved by a lattice inversion …
Trapping Rydberg Atoms in an Optical Lattice
SE Anderson - Bulletin of the American Physical Society, 2012 - APS
Optical lattice traps for Rydberg atoms are of interest in advanced science and in practical
applications. After a brief discussion of these areas of interest, I will review some basics of …
applications. After a brief discussion of these areas of interest, I will review some basics of …