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Magnetic Field Gradiometer with Sub-Micron Spatial Resolution Based on Caesium Vapour in an Extremely Thin Cell

M. Auzinsh

M. Auzinsh

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Auzinsh, M.
, 
A. Berzins

A. Berzins

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Berzins, A.
, 
R. Ferber

R. Ferber

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Ferber, R.
, 
F. Gahbauer

F. Gahbauer

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Gahbauer, F.
, 
U. Kalnins

U. Kalnins

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Kalnins, U.
, 
R. Rundans

R. Rundans

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Rundans, R.
 and 
D. Sarkisyan

D. Sarkisyan

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Sarkisyan, D.
  
Jul 24, 2015
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Published Online: Jul 24, 2015
Page range: 3 - 10
DOI: https://doi.org/10.1515/lpts-2015-0013
Keywords
© by A. Berzins
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

In this paper we present a device for measuring the magnetic field and its gradient with a spatial resolution of several hundred nanometres. This device is based on caesium metal vapour confined to an extremely thin cell (ETC). To measure magnetic signals, we use absorption and very low laser powers, which might be appealing for modern fabrication techniques. A portable, fully automated device was constructed.

Language:
English
Publication timeframe:
6 times per year
Journal Subjects:
Physics, Technical and Applied Physics
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