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Toward Analog Quantum Computing: Simulating Designer Atomic Systems
We use a magneto-optical trap to cool rubidium atoms to temperatures in the µK range. On the µs timescales of our experiment, the atoms are moving slowly enough that they appear stationary. We then excite them to a Rydberg...
quantum Physics Rydberg Atoms dipole dipole interactions code energy exchange Mathematica angular dependence spheres Atomic, Molecular and Optical Physics Physical Sciences and Mathematics Physics Quantum physics
Published by: Ursinus College
Toward Quantum Analog Computing: Simulating Designer Atomic Systems
We use a magneto-optical trap to cool rubidium atoms to temperatures in the µK range. On the µs timescales of our experiment, the atoms are moving slowly enough that they appear stationary. We then excite them to a Rydberg...
Rydberg LASER Quantum physics code dipole moment spheres angular dependence energy exchange Mathematica Atomic, Molecular and Optical Physics Physical Sciences and Mathematics Physics Quantum physics
Published by: Ursinus College
Simulations of the Angular Dependence of the Dipole-Dipole Interaction
In our project we ran computations on a supercomputer to simulate experiments performed on highly excited atoms at ?K temperatures. At ?K temperatures the atoms are moving slowly so there are essentially no collisions of the...
Angular dependency dipole-dipole interaction code atomic states energy exchange Atomic, Molecular and Optical Physics Physical Sciences and Mathematics Physics Quantum physics
Published by: Ursinus College