Vortices in quantum droplets: Analogies between boson and fermion systems

H. Saarikoski; Stephanie Reimann; A. Harju; M. Manninen

doi:10.1103/RevModPhys.82.2785

Vortices in quantum droplets: Analogies between boson and fermion systems

H. Saarikoski, Stephanie Reimann, A. Harju, M. Manninen

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

Abstract

The main theme of this review is the many-body physics of vortices in quantum droplets of bosons or fermions in the limit of small particle numbers. Systems of interest include cold atoms in traps as well as electrons confined in quantum dots. When set to rotate, these in principle different quantum systems show remarkable analogies. The topics reviewed include the structure of the finite rotating many-body state, universality of vortex formation and localization of vortices in both bosonic and fermionic systems, and the emergence of particle-vortex composites in the quantum Hall regime. An overview of the computational many-body techniques sets focus on the configuration-interaction and density-functional methods. Studies of quantum droplets with one or several particle components, where vortices as well as coreless vortices may occur, are reviewed, and theoretical as well as experimental challenges are discussed.

Original language	English
Pages (from-to)	2785-2834
Journal	Reviews of Modern Physics
Volume	82
Issue number	3
DOIs	https://doi.org/10.1103/RevModPhys.82.2785
Publication status	Published - 2010

Bibliographical note

The information about affiliations in this record was updated in December 2015.
The record was previously connected to the following departments: Mathematical Physics (Faculty of Technology) (011040002)

Subject classification (UKÄ)

Physical Sciences

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10.1103/RevModPhys.82.2785

Cite this

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title = "Vortices in quantum droplets: Analogies between boson and fermion systems",

abstract = "The main theme of this review is the many-body physics of vortices in quantum droplets of bosons or fermions in the limit of small particle numbers. Systems of interest include cold atoms in traps as well as electrons confined in quantum dots. When set to rotate, these in principle different quantum systems show remarkable analogies. The topics reviewed include the structure of the finite rotating many-body state, universality of vortex formation and localization of vortices in both bosonic and fermionic systems, and the emergence of particle-vortex composites in the quantum Hall regime. An overview of the computational many-body techniques sets focus on the configuration-interaction and density-functional methods. Studies of quantum droplets with one or several particle components, where vortices as well as coreless vortices may occur, are reviewed, and theoretical as well as experimental challenges are discussed.",

author = "H. Saarikoski and Stephanie Reimann and A. Harju and M. Manninen",

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AU - Saarikoski, H.

AU - Reimann, Stephanie

AU - Harju, A.

AU - Manninen, M.

N1 - The information about affiliations in this record was updated in December 2015. The record was previously connected to the following departments: Mathematical Physics (Faculty of Technology) (011040002)

PY - 2010

Y1 - 2010

N2 - The main theme of this review is the many-body physics of vortices in quantum droplets of bosons or fermions in the limit of small particle numbers. Systems of interest include cold atoms in traps as well as electrons confined in quantum dots. When set to rotate, these in principle different quantum systems show remarkable analogies. The topics reviewed include the structure of the finite rotating many-body state, universality of vortex formation and localization of vortices in both bosonic and fermionic systems, and the emergence of particle-vortex composites in the quantum Hall regime. An overview of the computational many-body techniques sets focus on the configuration-interaction and density-functional methods. Studies of quantum droplets with one or several particle components, where vortices as well as coreless vortices may occur, are reviewed, and theoretical as well as experimental challenges are discussed.

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DO - 10.1103/RevModPhys.82.2785

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JO - Reviews of Modern Physics

JF - Reviews of Modern Physics

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ER -

Vortices in quantum droplets: Analogies between boson and fermion systems

Abstract

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