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1. Interferometric imaging of the type IIIb and U radio bursts observed with LOFAR on 22 August 2017

Author

Dabrowski, Bartosz, Mikula, Katarzyna, Flisek, Pawel, Vocks, Christian, Zhang, PeiJin, Magdalenić, Jasmina, Warmuth, Alexander, Morosan, Diana E., Froń, Adam, Fallows, Richard A., Bisi, Mario M., Krankowski, Andrzej, Mann, Gottfried, Blaszkiewicz, Leszek, Carley, Eoin P., Gallagher, Peter T., Zucca, Pietro, Rudawy, Pawel, Hajduk, Marcin, Kotulak, Kacper, and Sidorowicz, Tomasz

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The Sun is the source of different types of radio bursts that are associated with solar flares, for example. Among the most frequently observed phenomena are type III solar bursts. Their radio images at low frequencies (below 100 MHz) are relatively poorly studied due to the limitations of legacy radio telescopes. We study the general characteristics of types IIIb and U with stria structure solar radio bursts in the frequency range of 20 - 80 MHz, in particular the source size and evolution in different altitudes, as well as the velocity and energy of electron beams responsible for their generation. In this work types IIIb and U with stria structure radio bursts are analyzed using data from the LOFAR telescope including dynamic spectra and imaging observations, as well as data taken in the X-ray range (GOES and RHESSI satellites) and in the extreme ultraviolet (SDO satellite). In this study we determined the source size limited by the actual shape of the contour at particular frequencies of type IIIb and U solar bursts in a relatively wide frequency band from 20 to 80 MHz. Two of the bursts seem to appear at roughly the same place in the studied active region and their source sizes are similar. It is different in the case of another burst, which seems to be related to another part of the magnetic field structure in this active region. The velocities of the electron beams responsible for the generation of the three bursts studied here were also found to be different., Comment: Astronomy & Astrophysics, in press; 9 pages, 6 figures

Published
2022
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2. Experimental data and models for radio diagnostics of extreme impacts “from above” and “from below” on ionospheric space weather: VLF, LOFAR and GNSS

Author

Rapoport, Yuriy, primary, Grimalsky, Volodymyr, additional, Krankowski, Andrzej, additional, Błaszkiewicz, Leszek, additional, Flisek, Paweł, additional, Kotulak, Kacper, additional, Fron, Adam, additional, Reshetnyk, Volodymyr, additional, Grytsai, Asen, additional, Ivchenko, Vasil, additional, Liashchuk, Alex, additional, and Petrishchevskii, Sergei, additional

Published
2024
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4. Towards the possibility to combine LOFAR and GNSS measurements to sense ionospheric irregularities

Author

Flisek Paweł, Forte Biagio, Fallows Richard, Kotulak Kacper, Krankowski Andrzej, Bisi Mario, Mevius Maaijke, Froń Adam, Tiburzi Caterina, Soida Marian, Śmierciak Bartosz, Grzesiak Marcin, Matyjasiak Barbara, Pożoga Mariusz, Dąbrowski Bartosz, Mann Gottfried, Vocks Christian, Zucca Pietro, and Błaszkiewicz Leszek

Subjects
scintillation, lofar, ionospheric irregularities, gnss, Meteorology. Climatology, QC851-999
Abstract

Inhomogeneities within the ionospheric plasma density affect trans-ionospheric radio signals, causing radio wave scintillation in the amplitude and phase of the signals. The amount of scintillation induced by ionospheric irregularities typically decreases with the radio wave frequency. As the ionosphere affects a variety of technological systems (e.g., civil aviation, financial operations) as well as low-frequency radio astronomy observations, it is important to detect and monitor ionospheric effects with higher accuracy than currently available. Here, a novel methodology for the detection and characterization of ionospheric irregularities is established on the basis of LOFAR (Low-Frequency Array) scintillation measurements at Very High Frequency (VHF) that take into account the lack of ergodicity in the intensity fluctuations induced by scintillation. The methodology estimates the S4 scintillation index originating from irregularities with spatial scales in the inertial sub-range of electron density fluctuations in the ionosphere. The methodology is illustrated by means of observations that were collected through the Polish LOFAR stations located in Bałdy, Borowiec and Łazy: its validation was carried out by comparing LOFAR VHF scintillation observations with independent Global Navigation Satellite Systems (GNSS) observations that were collected through a high-rate receiver located near the LOFAR station in Bałdy as well as through geodetic receivers from the Polish ASG-EUPOS network. Two case studies are presented: 31 March 2017 and 28 September 2017. The comparison between LOFAR S4 observations and independent ionospheric measurements of both scintillation and rate of change of Total Electron Content (TEC) from GNSS reveals that the sensitivity of LOFAR and GNSS to ionospheric structures is different as a consequence of the frequency dependency of radio wave scintillation. Furthermore, it can be noticed that observations of LOFAR VHF scintillation can be utilised to detect plasma structures forming in the mid-latitude ionosphere, including electron density gradients occurring over spatial scales that are not necessarily detected through traditional GNSS measurements: the detection of all spatial scales is important for correct monitoring and modelling of ionospheric processes. Hence, the different sensitivity of LOFAR to ionospheric structures, in addition to traditional GNSS ionospheric measurements, allows us to expand the knowledge of ionospheric processes.

Published
2023
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6. ULF perturbations: modeling Earth-Atmosphere-Ionosphere coupling, signal processing using information entropy, determination of the electric and magnetic field components and “experiment-theory comparison“

Author

Rapoport, Yuriy, primary, Reshetnyk, Volodymyr, additional, Grytsai, Asen, additional, Liashchuk, Alex, additional, Hayakawa, Masashi, additional, Grimalsky, Volodymyr, additional, Petrishchevskii, Sergei, additional, Krankowski, Andrzej, additional, Błaszkiewicz, Leszek, additional, Flisek, Paweł, additional, De Santis, Angelo, additional, and Scotto, Carlo, additional

Published
2023
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7. Interferometric imaging of the type IIIb and U radio bursts observed with LOFAR on 22 August 2017

Author

Dabrowski, Bartosz, primary, Mikuła, Katarzyna, additional, Flisek, Paweł, additional, Vocks, Christian, additional, Zhang, PeiJin, additional, Magdalenić, Jasmina, additional, Warmuth, Alexander, additional, Morosan, Diana E., additional, Froń, Adam, additional, Fallows, Richard A., additional, Bisi, Mario M., additional, Krankowski, Andrzej, additional, Mann, Gottfried, additional, Błaszkiewicz, Leszek, additional, Carley, Eoin P., additional, Gallagher, Peter T., additional, Zucca, Pietro, additional, Rudawy, Paweł, additional, Hajduk, Marcin, additional, Kotulak, Kacper, additional, and Sidorowicz, Tomasz, additional

Published
2023
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9. Global Monitoring of Ionospheric Weather by GIRO and GNSS Data Fusion

Author

Galkin, Ivan, primary, Froń, Adam, additional, Reinisch, Bodo, additional, Hernández-Pajares, Manuel, additional, Krankowski, Andrzej, additional, Nava, Bruno, additional, Bilitza, Dieter, additional, Kotulak, Kacper, additional, Flisek, Paweł, additional, Li, Zishen, additional, Wang, Ningbo, additional, Dollase, David Roma, additional, García-Rigo, Alberto, additional, and Batista, Inez, additional

Published
2022
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14. Towards Cooperative Global Mapping of the Ionosphere: Fusion Feasibility for IGS and IRI with Global Climate VTEC Maps

Author

Froń, Adam, primary, Galkin, Ivan, additional, Krankowski, Andrzej, additional, Bilitza, Dieter, additional, Hernández-Pajares, Manuel, additional, Reinisch, Bodo, additional, Li, Zishen, additional, Kotulak, Kacper, additional, Zakharenkova, Irina, additional, Cherniak, Iurii, additional, Roma Dollase, David, additional, Wang, Ningbo, additional, Flisek, Paweł, additional, and García-Rigo, Alberto, additional

Published
2020
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17. Interferometric Observations of the Active Regions in Radio Domain Before and After the Total Solar Eclipse on 21 August 2017

Author

Dabrowski, Bartosz, primary, Flisek, Paweł, additional, Vocks, Christian, additional, Morosan, Diana, additional, Zhang, Peijin, additional, Zucca, Pietro, additional, Magdalenic, Jasmina, additional, Fallows, Richard, additional, Krankowski, Andrzej, additional, Mann, Gottfried, additional, Blaszkiewicz, Leszek, additional, Rudawy, Pawel, additional, Hajduk, Marcin, additional, Fron, Adam, additional, Gallagher, Peter, additional, Ryan, Aoife Maria, additional, Kotulak, Kacper, additional, and Matyjasiak, Barbara, additional

Published
2020
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20. Finding the Ionospheric Fluctuations Reflection in the Pulsar Signals' Characteristics Observed with LOFAR.

Author

Błaszkiewicz, Leszek P., Flisek, Paweł, Kotulak, Kacper, Krankowski, Andrzej, Lewandowski, Wojciech, Kijak, Jarosław, and Froń, Adam

Subjects
*GLOBAL Positioning System, *PULSARS, *RADIO waves
Abstract

Pulsars' signals reaching the atmosphere can be considered being stable under certain assumptions. In such a case the ionosphere remains the main factor distorting signal from the extraterrestrial sources, particularly if we observe them at long radio waves. In this article we present the results of the analysis of relative peak flux changes for two selected pulsars: PSR J0332+5434 (B0329+54) and PSR J1509+5531 (B1508+55), observed with the long radio wave sensor (The PL612 Low Frequency Array (LOFAR) station in Bałdy), together with the analysis of Rate of TEC (ROT) parameter changes measured with the Global Navigation Satellite Systems (GNSS) sensor (IGS LAMA station (IGS: International GSSN Service)). The main objective of the work is to find if the rapid plasma density (observed with the Rate of Total Electron Content (TEC)) has a counterpart in the pulsar observation characteristics. This focuses the attention on ionosphere influence during pulsar investigations at low radio frequencies. Additionally, what was the aim of this work, our results give reasons for using pulsar signals from LOFAR together with GNSS data as multi instrumental ionosphere state probes. Our results show a clear anti-correlation between the ROT and the pulsar profile's peak flux trends. [ABSTRACT FROM AUTHOR]

Published
2021
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