A two-dimensional quantum gas in a magnetic trap

Karina Merloti (LPL); Romain Dubessy (LPL); Laurent Longchambon (LPL),; Aur\'elien Perrin (LPL); Paul-Eric Pottie (LPL); Vincent Lorent (LPL),; H\'el\`ene Perrin (LPL)

arXiv:1303.2474·cond-mat.quant-gas·March 12, 2013

A two-dimensional quantum gas in a magnetic trap

Karina Merloti (LPL), Romain Dubessy (LPL), Laurent Longchambon (LPL),, Aur\'elien Perrin (LPL), Paul-Eric Pottie (LPL), Vincent Lorent (LPL),, H\'el\`ene Perrin (LPL)

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TL;DR

This paper reports the first experimental creation of a two-dimensional quantum gas confined in a magnetic trap with RF dressing, demonstrating confinement, characterization, and dynamic control of the system.

Contribution

It introduces a novel magnetic trapping method for 2D quantum gases and explores their dynamic properties and mode excitations.

Findings

01

Successful confinement of a quantum gas in 2D

02

Trap geometry can be dynamically modified

03

Studied monopole and quadrupole modes

Abstract

We present the first experimental realization of a two-dimensional quantum gas in a purely magnetic trap dressed by a radio frequency field in the presence of gravity. The resulting potential is extremely smooth and very close to harmonic in the two-dimensional plane of confinement. We fully characterize the trap and demonstrate the confinement of a quantum gas to two dimensions. The trap geometry can be modified to a large extent, in particular in a dynamical way. Taking advantage of this possibility, we study the monopole and the quadrupole modes of a two-dimensional Bose gas.

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