Generation of microscale current loops, atom rings, and cubic clusters using twisted optical molasses

A. R. Carter; M. Babiker; M. Al-Amri; Abha King Khalid University; D. L. Andrews

doi:10.1103/PHYSREVA.73.021401

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Journal article

Generation of microscale current loops, atom rings, and cubic clusters using twisted optical molasses

A. R. Carter, M. Babiker, M. Al-Amri, Abha King Khalid University and D. L. Andrews

Physical review. A, Atomic, molecular, and optical physics, Vol.73(2)

01/02/2006

DOI: https://doi.org/10.1103/PHYSREVA.73.021401

Abstract

ATOMIC AND MOLECULAR PHYSICS

ATOMS

COOLING

CURRENTS

IONS

ONE-DIMENSIONAL CALCULATIONS

OPTICS

THREE-DIMENSIONAL CALCULATIONS

TRAPPING

TWO-DIMENSIONAL CALCULATIONS

VISIBLE RADIATION

We propose a scheme for a viable and highly flexible all-optical atomic cooling and trapping using twisted light. In particular, we explain how one-dimensional twisted optical molasses should lead to a microscale atomic ring or a picoampere ionic current. Two-dimensional and three-dimensional molasses lead, respectively, to the creation of atom or ion loops and discrete atom clusters positioned at the eight corners of a microcube. These features at the microscale should find applications in physics and in quantum information processing using optically trapped atoms and ions.

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Details

Title: Generation of microscale current loops, atom rings, and cubic clusters using twisted optical molasses
Creators - without role: A. R. Carter
M. Babiker - University of York
M. Al-Amri - University of York
Abha King Khalid University - Saudi Arabia)
D. L. Andrews - University of East Anglia
Publication Details: Physical review. A, Atomic, molecular, and optical physics, Vol.73(2)
Identifiers: 9922923808331
Academic Unit: King Khalid University
Language: English
Resource Type: Journal article