Publications list

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2025

Journal Article

D. Trotta, et al., An Overview of Solar Orbiter Observations of Interplanetary Shocks in Solar Cycle 25, \apjs 277, 2 (2025).

2024

Journal Article

E. Berriot, P. Démoulin, O. Alexandrova, A. Zaslavsky, M. Maksimovic, Identification of a single plasma parcel during a radial alignment of the Parker Solar Probe and Solar Orbiter, åp 686, A114 (2024).

J. J. Boldú, et al., Ion-Acoustic Waves Associated With Interplanetary Shocks, \grl 51, e2024GL109956 (2024).

N. Chrysaphi, et al., First determination of the angular dependence of rise and decay times of solar radio bursts using multi-spacecraft observations, åp 687, L12 (2024).

J. T. Coburn, et al., The Regulation of the Solar Wind Electron Heat Flux by Wave–Particle Interactions, \apj 964, 100 (2024).

L. Colomban, et al., Quantifying the diffusion of suprathermal electrons by whistler waves between 0.2 and 1 AU with Solar Orbiter and Parker Solar Probe, åp 684, A143 (2024).

J. - B. Dakeyo, et al., Radial evolution of the accuracy of ballistic solar wind backmapping, åp 686, A12 (2024).

J. - B. Dakeyo, et al., Testing the flux tube expansion factor - solar wind speed relation with Solar Orbiter data, åp 691, A77 (2024).

N. J. T. Edberg, et al., Extent of the Magnetotail of Venus From the Solar Orbiter, Parker Solar Probe and BepiColombo Flybys, Journal of Geophysical Research (Space Physics) 129, e2024JA032603 (2024).

L. Y. Khoo, et al., Multispacecraft Observations of a Widespread Solar Energetic Particle Event on 2022 February 15–16, \apj 963, 107 (2024).

K. - L. Klein, C. Salas Matamoros, A. Hamini, A. Kollhoff, Non-thermal electrons in an eruptive solar event: Magnetic structure, confinement, and escape into the heliosphere, åp 690, A382 (2024).

S. Kočiščák, A. Theodorsen, I. Mann, The distribution of the near-solar bound dust grains detected with Parker Solar Probe, åp 692, A68 (2024).

S. Kočiščák, et al., Impact Ionization Double Peaks Analyzed In High Temporal Resolution On Solar Orbiter, Annales Geophysicae 42, 191-212 (2024).

V. Krupar, et al., Comparative Analysis of Type III Radio Bursts and Solar Flares: Spatial Localization and Correlation with Solar Flare Intensity, \apj 961, 88 (2024).

V. Krupar, et al., Enhancing Triangulation of Interplanetary Type III Bursts through Wavevector Correction, \apj 960, 101 (2024).

V. Krupar, et al., Radial Variations in Solar Type III Radio Bursts, \apjl 967, L32 (2024).

P. Louarn, et al., Skewness and kurtosis of solar wind proton distribution functions: The normal inverse-Gaussian model and its implications, åp 682, A44 (2024).

M. Rojo, et al., Electron moments derived from the Mercury Electron Analyzer during the cruise phase of BepiColombo, åp 683, A99 (2024).

A. Vecchio, M. Maksimovic, N. Chrysaphi, E. P. Kontar, V. Krupar, Temporally Resolved Type III Solar Radio Bursts in the Frequency Range 3–13 MHz, \apjl 974, L18 (2024).

A. Vinogradov, et al., Embedded Coherent Structures from Magnetohydrodynamics to Sub-ion Scales in Turbulent Solar Wind at 0.17 au, \apj 971, 88 (2024).

2023

Conference Paper

L. Lamy, et al., in Planetary, Solar and Heliospheric Radio Emissions IX, C. K. Louis, C. M. Jackman, G. Fischer, A. H. Sulaiman, P. Zucca, Eds. (2023), p. 103105.

Journal Article

J. J. Boldú, et al., Langmuir waves associated with magnetic holes in the solar wind, åp 674, A220 (2023).

X. Chen, et al., Source positions of an interplanetary type III radio burst and anisotropic radio-wave scattering, åp 680, A1 (2023).

N. Dresing, et al., The 17 April 2021 widespread solar energetic particle event, åp 674, A105 (2023).

I. C. Jebaraj, et al., Relativistic electron beams accelerated by an interplanetary shock, åp 680, L7 (2023).

S. Kočiščák, et al., Modeling Solar Orbiter dust detection rates in the inner heliosphere as a Poisson process, åp 670, A140 (2023).

A. Kvammen, et al., Machine learning detection of dust impact signals observed by the Solar Orbiter, Annales Geophysicae 41, 69-86 (2023).

C. Y. Lorfing, et al., Solar Electron Beam-Langmuir Wave Interactions and How They Modify Solar Electron Beam Spectra: Solar Orbiter Observations of a Match Made in the Heliosphere, \apj 959, 128 (2023).

G. M. Mason, et al., The 18-19 March 2022 series of <sup>3</sup>He-rich events observed by Solar Orbiter at 0.36 au compared with EUV, X-ray, and radio observations, åp 669, L16 (2023).

K. Stergiopoulou, et al., Solar Orbiter Data-Model Comparison in Venus' Induced Magnetotail, Journal of Geophysical Research (Space Physics) 128, e2022JA031023 (2023).

R. F. Wimmer-Schweingruber, et al., Unusually long path length for a nearly scatter-free solar particle event observed by Solar Orbiter at 0.43 au, åp 678, A98 (2023).

2022

Journal Article

J. - B. Dakeyo, M. Maksimovic, P. Démoulin, J. Halekas, M. L. Stevens, Statistical Analysis of the Radial Evolution of the Solar Winds between 0.1 and 1 au and Their Semiempirical Isopoly Fluid Modeling, \apj 940, 130 (2022).

A. P. Dimmock, et al., Analysis of multiscale structures at the quasi-perpendicular Venus bow shock. Results from Solar Orbiter's first Venus flyby, åp 660, A64 (2022).

E. Palmerio, et al., CMEs and SEPs During November-December 2020: A Challenge for Real-Time Space Weather Forecasting, Space Weather 20, e2021SW002993 (2022).

D. Perrone, et al., Evolution of coronal hole solar wind in the inner heliosphere: Combined observations by Solar Orbiter and Parker Solar Probe, åp 668, A189 (2022).

N. Sioulas, et al., Magnetic Field Intermittency in the Solar Wind: Parker Solar Probe and SolO Observations Ranging from the Alfvén Region up to 1 AU, \apj 934, 143 (2022).

2021

Journal Article

R. C. Allen, et al., Energetic ions in the Venusian system: Insights from the first Solar Orbiter flyby, åp 656, A7 (2021).

A. Aran, et al., Evidence for local particle acceleration in the first recurrent galactic cosmic ray depression observed by Solar Orbiter. The ion event on 19 June 2020, åp 656, L10 (2021).

R. Bučík, et al., The long period of <sup>3</sup>He-rich solar energetic particles measured by Solar Orbiter 2020 November 17-23, åp 656, L11 (2021).

F. Carbone, et al., Statistical study of electron density turbulence and ion-cyclotron waves in the inner heliosphere: Solar Orbiter observations, åp 656, A16 (2021).

T. Chust, et al., Observations of whistler mode waves by Solar Orbiter's RPW Low Frequency Receiver (LFR): In-flight performance and first results, åp 656, A17 (2021).

R. Gómez-Herrero, et al., First near-relativistic solar electron events observed by EPD onboard Solar Orbiter, åp 656, L3 (2021).

D. B. Graham, et al., Kinetic electrostatic waves and their association with current structures in the solar wind, åp 656, A23 (2021).

L. Z. Hadid, et al., Solar Orbiter's first Venus flyby: Observations from the Radio and Plasma Wave instrument, åp 656, A18 (2021).

G. Jannet, et al., Measurement of Magnetic Field Fluctuations in the Parker Solar Probe and Solar Orbiter Missions, Journal of Geophysical Research (Space Physics) 126, e28543 (2021).

Y. V. Khotyaintsev, et al., Density fluctuations associated with turbulence and waves. First observations by Solar Orbiter, åp 656, A19 (2021).

A. Kollhoff, et al., The first widespread solar energetic particle event observed by Solar Orbiter on 2020 November 29, åp 656, A20 (2021).

M. Kretzschmar, et al., Whistler waves observed by Solar Orbiter/RPW between 0.5 AU and 1 AU, åp 656, A24 (2021).

M. Maksimovic, et al., The Solar Orbiter Radio and Plasma Waves (RPW) instrument (Corrigendum), åp 654, C2 (2021).

M. Maksimovic, et al., First observations and performance of the RPW instrument on board the Solar Orbiter mission, åp 656, A41 (2021).

L. Matteini, et al., Solar Orbiter's encounter with the tail of comet C/2019 Y4 (ATLAS): Magnetic field draping and cometary pick-up ion waves, åp 656, A39 (2021).

S. Musset, et al., Simulations of radio-wave anisotropic scattering to interpret type III radio burst data from Solar Orbiter, Parker Solar Probe, STEREO, and Wind, åp 656, A34 (2021).

D. Píša, et al., First-year ion-acoustic wave observations in the solar wind by the RPW/TDS instrument on board Solar Orbiter, åp 656, A14 (2021).

J. Soucek, et al., Solar Orbiter Radio and Plasma Waves - Time Domain Sampler: In-flight performance and first results, åp 656, A26 (2021).

K. Steinvall, et al., Solar wind current sheets and deHoffmann-Teller analysis. First results from Solar Orbiter's DC electric field measurements, åp 656, A9 (2021).

D. Telloni, et al., Study of two interacting interplanetary coronal mass ejections encountered by Solar Orbiter during its first perihelion passage. Observations and modeling, åp 656, A5 (2021).

A. Vecchio, et al., Solar Orbiter/RPW antenna calibration in the radio domain and its application to type III burst observations, åp 656, A33 (2021).

M. Volwerk, et al., Solar Orbiter's first Venus flyby. MAG observations of structures and waves associated with the induced Venusian magnetosphere, åp 656, A11 (2021).

A. Zaslavsky, et al., First dust measurements with the Solar Orbiter Radio and Plasma Wave instrument, åp 656, A30 (2021).

2020

Journal Article

M. Maksimovic, et al., The Solar Orbiter Radio and Plasma Waves (RPW) instrument, åp 642, A12 (2020).

2001

Conference Paper

M. Maksimovic, et al., in Solar encounter. Proceedings of the First Solar Orbiter Workshop, ESA Special Publication. B. Battrick, et al., Eds. (2001), vol. 493, p. 285-287.