Sub-atom shot noise Faraday imaging of ultracold atom clouds

M. A. Kristensen; M. Gajdacz; P. L. Pedersen; C. Klempt; J. F. Sherson; J. J. Arlt; A. J. Hilliard

doi:10.1088/1361-6455/50/3/034004

Sub-atom shot noise Faraday imaging of ultracold atom clouds

M. A. Kristensen
, M. Gajdacz
, P. L. Pedersen
, C. Klempt
, J. F. Sherson
, J. J. Arlt
, A. J. Hilliard

Aarhus University

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Abstract

We demonstrate that a dispersive imaging technique based on the Faraday effect can measure the atom number in a large, ultracold atom cloud with a precision below the atom shot noise level. The minimally destructive character of the technique allows us to take multiple images of the same cloud, which enables sub-atom shot noise measurement precision of the atom number and allows for an in situ determination of the measurement precision. We have developed a noise model that quantitatively describes the noise contributions due to photon shot noise in the detected light and the noise associated with single atom loss. This model contains no free parameters and is calculated through an analysis of the fluctuations in the acquired images. For clouds containing atoms, we achieve a precision more than a factor of two below the atom shot noise level.

Originalsprache	Englisch
Aufsatznummer	034004
Fachzeitschrift	Journal of Physics B: Atomic, Molecular and Optical Physics
Jahrgang	50
Ausgabenummer	3
Elektronisch veröffentlicht (E-Pub)	17 Jan. 2017
DOIs	https://doi.org/10.1088/1361-6455/50/3/034004
Publikationsstatus	Veröffentlicht - 14 Feb. 2017

ASJC Scopus Sachgebiete

Atom- und Molekularphysik sowie Optik
Physik der kondensierten Materie

Zugriff auf Dokument

10.1088/1361-6455/50/3/034004

http://arxiv.org/pdf/1608.06814Lizenz: Arxiv nonexclusive-distrib 1.0

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Link zur Publikation in Scopus

DQ-mat: Sonderforschungsbereich 1227/1, Teilprojekt B01 : Verschränkte neutrale Atome für Interferometrie jenseits des Standard-Quanten-Limits
Klempt, C. (Projektleiter*in (Principal Investigator))
1 Juli 2016 → 30 Juni 2020
Projekt: Forschung
DQ-mat: Sonderforschungsbereich 1227/1: Designte Quantenzustände der Materie - Erzeugung, Manipulation und Detektion für metrologische Anwendungen und Tests fundamentaler Physik
Schmidt, P. O. (Projektleiter*in (Principal Investigator))
1 Juli 2016 → 30 Juni 2020
Projekt: Forschung

Dieses zitieren

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title = "Sub-atom shot noise Faraday imaging of ultracold atom clouds",

abstract = "We demonstrate that a dispersive imaging technique based on the Faraday effect can measure the atom number in a large, ultracold atom cloud with a precision below the atom shot noise level. The minimally destructive character of the technique allows us to take multiple images of the same cloud, which enables sub-atom shot noise measurement precision of the atom number and allows for an in situ determination of the measurement precision. We have developed a noise model that quantitatively describes the noise contributions due to photon shot noise in the detected light and the noise associated with single atom loss. This model contains no free parameters and is calculated through an analysis of the fluctuations in the acquired images. For clouds containing atoms, we achieve a precision more than a factor of two below the atom shot noise level.",

keywords = "dispersive imaging, Faraday rotation, non-destructive imaging, sub atom shot noise detection, ultracold atom clouds",

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T1 - Sub-atom shot noise Faraday imaging of ultracold atom clouds

AU - Kristensen, M. A.

AU - Gajdacz, M.

AU - Pedersen, P. L.

AU - Klempt, C.

AU - Sherson, J. F.

AU - Arlt, J. J.

AU - Hilliard, A. J.

PY - 2017/2/14

Y1 - 2017/2/14

N2 - We demonstrate that a dispersive imaging technique based on the Faraday effect can measure the atom number in a large, ultracold atom cloud with a precision below the atom shot noise level. The minimally destructive character of the technique allows us to take multiple images of the same cloud, which enables sub-atom shot noise measurement precision of the atom number and allows for an in situ determination of the measurement precision. We have developed a noise model that quantitatively describes the noise contributions due to photon shot noise in the detected light and the noise associated with single atom loss. This model contains no free parameters and is calculated through an analysis of the fluctuations in the acquired images. For clouds containing atoms, we achieve a precision more than a factor of two below the atom shot noise level.

AB - We demonstrate that a dispersive imaging technique based on the Faraday effect can measure the atom number in a large, ultracold atom cloud with a precision below the atom shot noise level. The minimally destructive character of the technique allows us to take multiple images of the same cloud, which enables sub-atom shot noise measurement precision of the atom number and allows for an in situ determination of the measurement precision. We have developed a noise model that quantitatively describes the noise contributions due to photon shot noise in the detected light and the noise associated with single atom loss. This model contains no free parameters and is calculated through an analysis of the fluctuations in the acquired images. For clouds containing atoms, we achieve a precision more than a factor of two below the atom shot noise level.

KW - dispersive imaging

KW - Faraday rotation

KW - non-destructive imaging

KW - sub atom shot noise detection

KW - ultracold atom clouds

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Sub-atom shot noise Faraday imaging of ultracold atom clouds

Abstract

ASJC Scopus Sachgebiete

Zugriff auf Dokument

Andere Dateien und Links

Projekte

DQ-mat: Sonderforschungsbereich 1227/1, Teilprojekt B01 : Verschränkte neutrale Atome für Interferometrie jenseits des Standard-Quanten-Limits

DQ-mat: Sonderforschungsbereich 1227/1: Designte Quantenzustände der Materie - Erzeugung, Manipulation und Detektion für metrologische Anwendungen und Tests fundamentaler Physik

Dieses zitieren