Dynamical MCG mapping with an atomic vapor magnetometer

A. Weis; R Wynands; Riccardo Fenici; G. Bison

Dynamical MCG mapping with an atomic vapor magnetometer

A. Weis, R Wynands, Riccardo Fenici, G. Bison

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

We have developed a magnetometer based on magnetic resonance in cesium vapor optically pumped by resonant laser radiation, which has the sensitivity and bandwidth to record human magnetocardiograms. The device is operated as a first-order gradiometer in a weakly shielded environment and allows us to record 2-dimensional field maps by shifting the subject with respect to a single sensor and making time-sequential measurements. We discuss the magnetometer technique and its performance as well as obtained results, which include a comparison of MCG data recorded with our single channel optical magnetometer with SQUID measurements from a commercial multi-channel device as well as from SQUID reference data. The results obtained so far in the detection of cardiomagnetic signals using the optical magnetometer make us confident that the technique has a high potential to serve as an alternative to SQUID detection.

Lingua originale	English
pagine (da-a)	not available-not available
Rivista	NEUROLOGY & CLINICAL NEUROPHYSIOLOGY
Volume	2004
Stato di pubblicazione	Pubblicato - 2004
Pubblicato esternamente	Sì

Keywords

MCG mapping
atomic vapor magnetometer

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title = "Dynamical MCG mapping with an atomic vapor magnetometer",

abstract = "We have developed a magnetometer based on magnetic resonance in cesium vapor optically pumped by resonant laser radiation, which has the sensitivity and bandwidth to record human magnetocardiograms. The device is operated as a first-order gradiometer in a weakly shielded environment and allows us to record 2-dimensional field maps by shifting the subject with respect to a single sensor and making time-sequential measurements. We discuss the magnetometer technique and its performance as well as obtained results, which include a comparison of MCG data recorded with our single channel optical magnetometer with SQUID measurements from a commercial multi-channel device as well as from SQUID reference data. The results obtained so far in the detection of cardiomagnetic signals using the optical magnetometer make us confident that the technique has a high potential to serve as an alternative to SQUID detection.",

keywords = "MCG mapping, atomic vapor magnetometer, MCG mapping, atomic vapor magnetometer",

author = "A. Weis and R Wynands and Riccardo Fenici and G. Bison",

year = "2004",

language = "English",

volume = "2004",

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journal = "NEUROLOGY & CLINICAL NEUROPHYSIOLOGY",

issn = "1526-8748",

publisher = "Berkeley Electronic Press:805 Camelia Street, Second Floor:Berkeley, CA 94710:(510)559-1500, EMAIL: [email protected], INTERNET: http://www.bepress.com, Fax: (510)559-1550 MIT Press.",

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TY - JOUR

T1 - Dynamical MCG mapping with an atomic vapor magnetometer

AU - Weis, A.

AU - Wynands, R

AU - Fenici, Riccardo

AU - Bison, G.

PY - 2004

Y1 - 2004

N2 - We have developed a magnetometer based on magnetic resonance in cesium vapor optically pumped by resonant laser radiation, which has the sensitivity and bandwidth to record human magnetocardiograms. The device is operated as a first-order gradiometer in a weakly shielded environment and allows us to record 2-dimensional field maps by shifting the subject with respect to a single sensor and making time-sequential measurements. We discuss the magnetometer technique and its performance as well as obtained results, which include a comparison of MCG data recorded with our single channel optical magnetometer with SQUID measurements from a commercial multi-channel device as well as from SQUID reference data. The results obtained so far in the detection of cardiomagnetic signals using the optical magnetometer make us confident that the technique has a high potential to serve as an alternative to SQUID detection.

AB - We have developed a magnetometer based on magnetic resonance in cesium vapor optically pumped by resonant laser radiation, which has the sensitivity and bandwidth to record human magnetocardiograms. The device is operated as a first-order gradiometer in a weakly shielded environment and allows us to record 2-dimensional field maps by shifting the subject with respect to a single sensor and making time-sequential measurements. We discuss the magnetometer technique and its performance as well as obtained results, which include a comparison of MCG data recorded with our single channel optical magnetometer with SQUID measurements from a commercial multi-channel device as well as from SQUID reference data. The results obtained so far in the detection of cardiomagnetic signals using the optical magnetometer make us confident that the technique has a high potential to serve as an alternative to SQUID detection.

KW - MCG mapping

KW - atomic vapor magnetometer

KW - MCG mapping

KW - atomic vapor magnetometer

UR - http://hdl.handle.net/10807/22970

UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-33645739212&partnerid=40&md5=8ebb2740c0729dbf2e9e555d039de9cc

M3 - Article

SN - 1526-8748

VL - 2004

SP - not available-not available

JO - NEUROLOGY & CLINICAL NEUROPHYSIOLOGY

JF - NEUROLOGY & CLINICAL NEUROPHYSIOLOGY

ER -

Dynamical MCG mapping with an atomic vapor magnetometer

Abstract

Keywords

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