Vector Overhauser magnetometer POS-4: experience and prospects of application
The results of practical use of a POS-4 vector magnetometer, developed by the Research Laboratory of Quantum Magnetometry, UrFU (Yekaterinburg) and based on POS Overhauser sensors, are presented. Continuous measurements by POS-4 have been carried out at the Paratunka observatory (IKIR FEB RAS, Kamch...
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EDP Sciences
2021
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oai:doaj.org-article:64e7763203004ed3b383b3e245352baf2021-11-12T11:44:52ZVector Overhauser magnetometer POS-4: experience and prospects of application2100-014X10.1051/epjconf/202125402018https://doaj.org/article/64e7763203004ed3b383b3e245352baf2021-01-01T00:00:00Zhttps://www.epj-conferences.org/articles/epjconf/pdf/2021/08/epjconf_strpep2021_02018.pdfhttps://doaj.org/toc/2100-014XThe results of practical use of a POS-4 vector magnetometer, developed by the Research Laboratory of Quantum Magnetometry, UrFU (Yekaterinburg) and based on POS Overhauser sensors, are presented. Continuous measurements by POS-4 have been carried out at the Paratunka observatory (IKIR FEB RAS, Kamchatka) since 2015, were done at the Saint Petersburg observatory (GC RAS / IZMIRAN SPb Branch, Leningrad Region) in 2017-2018 and have been performed at the Arti observatory (Institute of Geophysics, UB RAS, Sverdlovsk Region) since 2020. On the new high-latitude observatory White Sea (IAGA code WSE, GC RAS / MSU, Nikolai Pertsov White Sea Biological Station , Karelia), POS-4 is used as a main variometer for magnetic measurements. In April 2019, the magnetometer was successfully used for field measurements on ice during the TRANSARCTIC expedition in the Barents Sea (AARI, Roshydromet). At the beginning of 2021 IZMIRAN started testing two POS-4 magnetometers at the Moskow observatory. According to the results of field and observatory measurements it was possible to identify the advantages and disadvantages of the magnetometer and provide the information for its developers for further modernization in order to improve its efficiency and reliability. Many years of experience in POS-4 application determine the areas where its scientific and applied usage will provide important results, for example, for magnetic measurements in the Arctic regions or for monitoring of active zones around volcanoes.Khomutov Sergey Y.Sapunov Vladimir A.Denisov Alexey Y.Borodin Pavel B.Kudin Dmitry V.Sidorov Roman V.Bebnev Alexey S.Cherepanova Tatyana A.Kotikov Andrey L.Kanonidi Konstantin K.Turbin Yury G.Baryshev Pavel E.EDP SciencesarticlePhysicsQC1-999ENEPJ Web of Conferences, Vol 254, p 02018 (2021) |
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Physics QC1-999 Khomutov Sergey Y. Sapunov Vladimir A. Denisov Alexey Y. Borodin Pavel B. Kudin Dmitry V. Sidorov Roman V. Bebnev Alexey S. Cherepanova Tatyana A. Kotikov Andrey L. Kanonidi Konstantin K. Turbin Yury G. Baryshev Pavel E. Vector Overhauser magnetometer POS-4: experience and prospects of application |
description |
The results of practical use of a POS-4 vector magnetometer, developed by the Research Laboratory of Quantum Magnetometry, UrFU (Yekaterinburg) and based on POS Overhauser sensors, are presented. Continuous measurements by POS-4 have been carried out at the Paratunka observatory (IKIR FEB RAS, Kamchatka) since 2015, were done at the Saint Petersburg observatory (GC RAS / IZMIRAN SPb Branch, Leningrad Region) in 2017-2018 and have been performed at the Arti observatory (Institute of Geophysics, UB RAS, Sverdlovsk Region) since 2020. On the new high-latitude observatory White Sea (IAGA code WSE, GC RAS / MSU, Nikolai Pertsov White Sea Biological Station , Karelia), POS-4 is used as a main variometer for magnetic measurements. In April 2019, the magnetometer was successfully used for field measurements on ice during the TRANSARCTIC expedition in the Barents Sea (AARI, Roshydromet). At the beginning of 2021 IZMIRAN started testing two POS-4 magnetometers at the Moskow observatory. According to the results of field and observatory measurements it was possible to identify the advantages and disadvantages of the magnetometer and provide the information for its developers for further modernization in order to improve its efficiency and reliability. Many years of experience in POS-4 application determine the areas where its scientific and applied usage will provide important results, for example, for magnetic measurements in the Arctic regions or for monitoring of active zones around volcanoes. |
format |
article |
author |
Khomutov Sergey Y. Sapunov Vladimir A. Denisov Alexey Y. Borodin Pavel B. Kudin Dmitry V. Sidorov Roman V. Bebnev Alexey S. Cherepanova Tatyana A. Kotikov Andrey L. Kanonidi Konstantin K. Turbin Yury G. Baryshev Pavel E. |
author_facet |
Khomutov Sergey Y. Sapunov Vladimir A. Denisov Alexey Y. Borodin Pavel B. Kudin Dmitry V. Sidorov Roman V. Bebnev Alexey S. Cherepanova Tatyana A. Kotikov Andrey L. Kanonidi Konstantin K. Turbin Yury G. Baryshev Pavel E. |
author_sort |
Khomutov Sergey Y. |
title |
Vector Overhauser magnetometer POS-4: experience and prospects of application |
title_short |
Vector Overhauser magnetometer POS-4: experience and prospects of application |
title_full |
Vector Overhauser magnetometer POS-4: experience and prospects of application |
title_fullStr |
Vector Overhauser magnetometer POS-4: experience and prospects of application |
title_full_unstemmed |
Vector Overhauser magnetometer POS-4: experience and prospects of application |
title_sort |
vector overhauser magnetometer pos-4: experience and prospects of application |
publisher |
EDP Sciences |
publishDate |
2021 |
url |
https://doaj.org/article/64e7763203004ed3b383b3e245352baf |
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