Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula

We have compared effects of geomagnetic disturbances during magnetic storms of various types (CME and CIR) and during an isolated substorm on scintillations of GLONASS and GPS signals, using a Septentrio PolaRx5 receiver installed in Apatity (Murmansk Region, Russia). We analyze observational data f...

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Published in:Solar-Terrestrial Physics
Main Authors: Belahovskiy V. B., Budnikov P. A., Kalishin A. S., Pilgaev S. V., Roldugin A. V.
Format: Article in Journal/Newspaper
Language:English
Published: INFRA-M 2023
Subjects:
ionosphere
glonass
gps
magnetic storm
substorm
aurora
Astrophysics
QB460-466
kola peninsula
Online Access:https://doi.org/10.12737/stp-93202307
https://doaj.org/article/a23267212fc0411582793df6d1981d44
id ftdoajarticles:oai:doaj.org/article:a23267212fc0411582793df6d1981d44
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spelling ftdoajarticles:oai:doaj.org/article:a23267212fc0411582793df6d1981d44 2023-11-12T04:20:28+01:00 Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula Belahovskiy V. B. Budnikov P. A. Kalishin A. S. Pilgaev S. V. Roldugin A. V. 2023-09-01T00:00:00Z https://doi.org/10.12737/stp-93202307 https://doaj.org/article/a23267212fc0411582793df6d1981d44 EN eng INFRA-M https://naukaru.ru/en/nauka/article/57605/view https://doaj.org/toc/2500-0535 doi:10.12737/stp-93202307 2500-0535 https://doaj.org/article/a23267212fc0411582793df6d1981d44 Solar-Terrestrial Physics, Vol 9, Iss 3, Pp 54-67 (2023) ionosphere glonass gps magnetic storm substorm aurora Astrophysics QB460-466 article 2023 ftdoajarticles https://doi.org/10.12737/stp-93202307 2023-10-29T00:38:35Z We have compared effects of geomagnetic disturbances during magnetic storms of various types (CME and CIR) and during an isolated substorm on scintillations of GLONASS and GPS signals, using a Septentrio PolaRx5 receiver installed in Apatity (Murmansk Region, Russia). We analyze observational data for 2021. The magnetic storms of November 3–4, 2021 and October 11–12, 2021 are examined in detail. The November 3–4, 2021 magnetic storm was one of the most powerful in recent years. The analysis shows that the scintillation phase index reaches its highest values during nighttime and evening substorms (σϕ≈1.5–1.8), accompanied by a negative bay in the magnetic field. During magnetic storms, positive bays in the magnetic field, associated with an increase in the eastward electrojet, lead, however, to quite comparable values of the phase scintillation index. An increase in phase scintillations during nighttime and evening disturbances correlates with an increase in the intensity of ULF waves (Pi3/Pc5 pulsations) and with the appearance of aurora arcs. This confirms the important role of ULF waves in forming the auroral arc and in developing ionospheric irregularities. The predominance of the green line in the spectrum of auroras indicates the contribution of disturbances in the ionospheric E layer to the scintillation increase. Pulsating auroras, associated with ionospheric disturbances in the D layer, do not lead to a noticeable increase in phase scintillations. Analysis of ionospheric critical frequencies according to ionosonde data from the Lovozero Hydrometeorological Station indicates the contribution of the sporadic Es layer of the ionosphere to jumps in phase scintillations. The difference between phase scintillation values on GLONASS and GPS satellites during individual disturbances can be as great as 1.5 times, which may be due to different orbits of the satellites. At the same time, the level of GLONASS/GPS scintillations at the L2 frequency is higher than at the L1 frequency. We did not find an increase in ... Article in Journal/Newspaper kola peninsula Directory of Open Access Journals: DOAJ Articles Solar-Terrestrial Physics 9 3 54 67
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
topic ionosphere
glonass
gps
magnetic storm
substorm
aurora
Astrophysics
QB460-466
spellingShingle ionosphere
glonass
gps
magnetic storm
substorm
aurora
Astrophysics
QB460-466
Belahovskiy V. B.
Budnikov P. A.
Kalishin A. S.
Pilgaev S. V.
Roldugin A. V.
Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula
topic_facet ionosphere
glonass
gps
magnetic storm
substorm
aurora
Astrophysics
QB460-466
description We have compared effects of geomagnetic disturbances during magnetic storms of various types (CME and CIR) and during an isolated substorm on scintillations of GLONASS and GPS signals, using a Septentrio PolaRx5 receiver installed in Apatity (Murmansk Region, Russia). We analyze observational data for 2021. The magnetic storms of November 3–4, 2021 and October 11–12, 2021 are examined in detail. The November 3–4, 2021 magnetic storm was one of the most powerful in recent years. The analysis shows that the scintillation phase index reaches its highest values during nighttime and evening substorms (σϕ≈1.5–1.8), accompanied by a negative bay in the magnetic field. During magnetic storms, positive bays in the magnetic field, associated with an increase in the eastward electrojet, lead, however, to quite comparable values of the phase scintillation index. An increase in phase scintillations during nighttime and evening disturbances correlates with an increase in the intensity of ULF waves (Pi3/Pc5 pulsations) and with the appearance of aurora arcs. This confirms the important role of ULF waves in forming the auroral arc and in developing ionospheric irregularities. The predominance of the green line in the spectrum of auroras indicates the contribution of disturbances in the ionospheric E layer to the scintillation increase. Pulsating auroras, associated with ionospheric disturbances in the D layer, do not lead to a noticeable increase in phase scintillations. Analysis of ionospheric critical frequencies according to ionosonde data from the Lovozero Hydrometeorological Station indicates the contribution of the sporadic Es layer of the ionosphere to jumps in phase scintillations. The difference between phase scintillation values on GLONASS and GPS satellites during individual disturbances can be as great as 1.5 times, which may be due to different orbits of the satellites. At the same time, the level of GLONASS/GPS scintillations at the L2 frequency is higher than at the L1 frequency. We did not find an increase in ...
format Article in Journal/Newspaper
author Belahovskiy V. B.
Budnikov P. A.
Kalishin A. S.
Pilgaev S. V.
Roldugin A. V.
author_facet Belahovskiy V. B.
Budnikov P. A.
Kalishin A. S.
Pilgaev S. V.
Roldugin A. V.
author_sort Belahovskiy V. B.
title Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula
title_short Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula
title_full Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula
title_fullStr Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula
title_full_unstemmed Influence of geomagnetic disturbances on scintillations of GLONASS and GPS signals as observed on the Kola Peninsula
title_sort influence of geomagnetic disturbances on scintillations of glonass and gps signals as observed on the kola peninsula
publisher INFRA-M
publishDate 2023
url https://doi.org/10.12737/stp-93202307
https://doaj.org/article/a23267212fc0411582793df6d1981d44
genre kola peninsula
genre_facet kola peninsula
op_source Solar-Terrestrial Physics, Vol 9, Iss 3, Pp 54-67 (2023)
op_relation https://naukaru.ru/en/nauka/article/57605/view
https://doaj.org/toc/2500-0535
doi:10.12737/stp-93202307
2500-0535
https://doaj.org/article/a23267212fc0411582793df6d1981d44
op_doi https://doi.org/10.12737/stp-93202307
container_title Solar-Terrestrial Physics
container_volume 9
container_issue 3
container_start_page 54
op_container_end_page 67
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