Shaken not stirred: Creating exotic angular momentum states by shaking an optical lattice

Anthony Kiely; Albert Benseny; Thomas Busch; Andreas Ruschhaupt

doi:10.1088/0953-4075/49/21/215003

Shaken not stirred: Creating exotic angular momentum states by shaking an optical lattice

Anthony Kiely
, Albert Benseny
, Thomas Busch
, Andreas Ruschhaupt

School of Physics

Okinawa Institute of Science and Technology Graduate University

Research output: Contribution to journal › Article › peer-review

Abstract

We propose a method to create higher orbital states of ultracold atoms in the Mott regime of an optical lattice. This is done by periodically modulating the position of the trap minima (known as shaking) and controlling the interference term of the lasers creating the lattice. These methods are combined with techniques of shortcuts to adiabaticity. As an example of this, we show specifically how to create an anti-ferromagnetic type ordering of angular momentum states of atoms. The specific pulse sequences are designed using Lewis-Riesenfeld invariants and a four-level model for each well. The results are compared with numerical simulations of the full Schrö dinger equation.

Original language	English
Article number	215003
Journal	Journal of Physics B: Atomic, Molecular and Optical Physics
Volume	49
Issue number	21
DOIs	https://doi.org/10.1088/0953-4075/49/21/215003
Publication status	Published - 18 Oct 2016

Keywords

higher orbital states
optical lattice
shortcuts to adiabaticity

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10.1088/0953-4075/49/21/215003

https://hdl.handle.net/10468/3347Licence: CC BY

Cite this

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title = "Shaken not stirred: Creating exotic angular momentum states by shaking an optical lattice",

abstract = "We propose a method to create higher orbital states of ultracold atoms in the Mott regime of an optical lattice. This is done by periodically modulating the position of the trap minima (known as shaking) and controlling the interference term of the lasers creating the lattice. These methods are combined with techniques of shortcuts to adiabaticity. As an example of this, we show specifically how to create an anti-ferromagnetic type ordering of angular momentum states of atoms. The specific pulse sequences are designed using Lewis-Riesenfeld invariants and a four-level model for each well. The results are compared with numerical simulations of the full Schr{\"o} dinger equation.",

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AU - Benseny, Albert

AU - Busch, Thomas

AU - Ruschhaupt, Andreas

PY - 2016/10/18

Y1 - 2016/10/18

N2 - We propose a method to create higher orbital states of ultracold atoms in the Mott regime of an optical lattice. This is done by periodically modulating the position of the trap minima (known as shaking) and controlling the interference term of the lasers creating the lattice. These methods are combined with techniques of shortcuts to adiabaticity. As an example of this, we show specifically how to create an anti-ferromagnetic type ordering of angular momentum states of atoms. The specific pulse sequences are designed using Lewis-Riesenfeld invariants and a four-level model for each well. The results are compared with numerical simulations of the full Schrö dinger equation.

AB - We propose a method to create higher orbital states of ultracold atoms in the Mott regime of an optical lattice. This is done by periodically modulating the position of the trap minima (known as shaking) and controlling the interference term of the lasers creating the lattice. These methods are combined with techniques of shortcuts to adiabaticity. As an example of this, we show specifically how to create an anti-ferromagnetic type ordering of angular momentum states of atoms. The specific pulse sequences are designed using Lewis-Riesenfeld invariants and a four-level model for each well. The results are compared with numerical simulations of the full Schrö dinger equation.

KW - higher orbital states

KW - optical lattice

KW - shortcuts to adiabaticity

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JO - Journal of Physics B: Atomic, Molecular and Optical Physics

JF - Journal of Physics B: Atomic, Molecular and Optical Physics

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M1 - 215003

ER -

Shaken not stirred: Creating exotic angular momentum states by shaking an optical lattice

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