Search

Your search keyword '"Ďurovcová, Tereza"' showing total 21 results
Start Over Author "Ďurovcová, Tereza" Search Limiters Peer Reviewed
21 results on '"Ďurovcová, Tereza"'

1. Ion-Driven Instabilities in the Inner Heliosphere I: Statistical Trends

Author

Martinovic, Mihailo M., Klein, Kristopher G., Durovcova, Tereza, and Alterman, Benjamin L.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Physics - Plasma Physics, Physics - Space Physics
Abstract

Instabilities described by linear theory characterize an important form of wave-particle interaction in the solar wind. We diagnose unstable behavior of solar wind plasma between 0.3 and 1 au via the Nyquist criterion, applying it to fits of $\sim1.5$M proton and $\alpha$ particle Velocity Distribution Functions (VDFs) observed by \emph{Helios I} and \emph{II}. The variation of the fraction of unstable intervals with radial distance from the Sun is linear, signaling a gradual decline in the activity of unstable modes. When calculated as functions of the solar wind velocity and Coulomb number, we obtain more extreme, exponential trends in the regions where collisions appear to have a notable influence on the VDF. Instability growth rates demonstrate similar behavior, and significantly decrease with Coulomb number. We find that, for a non-negligible fraction of observations, the proton beam or secondary component might not be detected due to instrument resolution limitations, and demonstrate that the impact of this issue does not affect the main conclusions of this work.

Published
2021
Full Text
View/download PDF

2. Alfv\'enic Slow Solar Wind Observed in the Inner Heliosphere by Parker Solar Probe

Author

Huang, Jia, Kasper, J. C., Stevens, M., Vech, D., Klein, K. G., Martinović, Mihailo M., Alterman, B. L., Jian, Lan K., Hu, Qiang, Velli, Marco, Horbury, Timothy S., Lavraud, B., Parashar, T. N., Ďurovcová, Tereza, Niembro, Tatiana, Paulson, Kristoff, Hegedus, A., Bert, C. M., Holmes, J., Case, A. W., Korreck, K. E., Bale, Stuart D., Larson, Davin E., Livi, Roberto, Whittlesey, P., Pulupa, Marc, de Wit, Thierry Dudok, Malaspina, David M., MacDowall, Robert J., Bonnell, John W., Harvey, Peter R., and Goetz, Keith

Subjects
Physics - Space Physics, Astrophysics - Solar and Stellar Astrophysics
Abstract

The slow solar wind is typically characterized as having low Alfv\'enicity. However, Parker Solar Probe (PSP) observed predominately Alfv\'enic slow solar wind during several of its initial encounters. From its first encounter observations, about 55.3\% of the slow solar wind inside 0.25 au is highly Alfv\'enic ($|\sigma_C| > 0.7$) at current solar minimum, which is much higher than the fraction of quiet-Sun-associated highly Alfv\'enic slow wind observed at solar maximum at 1 au. Intervals of slow solar wind with different Alfv\'enicities seem to show similar plasma characteristics and temperature anisotropy distributions. Some low Alfv\'enicity slow wind intervals even show high temperature anisotropies, because the slow wind may experience perpendicular heating as fast wind does when close to the Sun. This signature is confirmed by Wind spacecraft measurements as we track PSP observations to 1 au. Further, with nearly 15 years of Wind measurements, we find that the distributions of plasma characteristics, temperature anisotropy and helium abundance ratio ($N_\alpha/N_p$) are similar in slow winds with different Alfv\'enicities, but the distributions are different from those in the fast solar wind. Highly Alfv\'enic slow solar wind contains both helium-rich ($N_\alpha/N_p\sim0.045$) and helium-poor ($N_\alpha/N_p\sim0.015$) populations, implying it may originate from multiple source regions. These results suggest that highly Alfv\'enic slow solar wind shares similar temperature anisotropy and helium abundance properties with regular slow solar winds, and they thus should have multiple origins., Comment: submitted to ApJS, welcome comments

Published
2020

3. Proton Temperature Anisotropy Variations in Inner Heliosphere Estimated with First Parker Solar Probe Observations

Author

Huang, Jia, Kasper, Justin C., Vech, Daniel, Klein, Kristopher G., Stevens, Michael L., Martinovic, Mihailo, Alterman, Benjamin L., Ďurovcová, Tereza, Paulson, Kristoff, Maruca, Bennett A., Qudsi, Ramiz A., Case, Anthony W., Korreck, Kelly, Jian, Lan K., Velli, Marco, Lavraud, Benoit, Hegedus, Alexander M., Bert, C. M., Holmes, J., Bale, Stuart D., Larson, Davin E., Livi, Roberto, Whittlesey, Phyllis, Pulupa, Marc, MacDowall, Robert J., Malaspina, David M., Bonnell, John W., Harvey, Peter R., goetz, Keith, and de Wit, Thierry Dudok

Subjects
Physics - Space Physics, Physics - Plasma Physics
Abstract

We report proton temperature anisotropy variations in the inner heliosphere with Parker Solar Probe (PSP) observations. Using a linear fitting method, we derive proton temperature anisotropy with temperatures measured by the Solar Probe Cup (SPC) from the SWEAP instrument suite and magnetic field observations from the FIELDS instrument suite. The observed radial dependence of temperature variations in the fast solar wind implies stronger perpendicular heating and parallel cooling than previous results from Helios measurements made at larger radial distances. The anti-correlation between proton temperature anisotropy and parallel plasma beta is retained in fast solar wind. However, the temperature anisotropies of the slow solar wind seem to be well constrained by the mirror and parallel firehose instabilities. The perpendicular heating of the slow solar wind inside 0.24 AU may contribute to its same trend up against mirror instability thresholds as fast solar wind. These results suggest that we may see stronger anisotropy heating than expected in inner heliosphere., Comment: Submit to ApJ special issue for Parker Solar Probe first results

Published
2019
Full Text
View/download PDF

8. Spectra of Temperature Fluctuations in the Solar Wind

Author

Němeček, Zdeněk, primary, Šafránková, Jana, additional, Němec, František, additional, Ďurovcová, Tereza, additional, Pitňa, Alexander, additional, Alterman, Benjamin L., additional, Voitenko, Yuriy M., additional, Pavlů, Jiří, additional, and Stevens, Michael L., additional

Published
2021
Full Text
View/download PDF

15. Proton Temperature Anisotropy Variations in Inner Heliosphere Estimated with the First Parker Solar Probe Observations

Author

Huang, Jia, primary, Kasper, J. C., additional, Vech, D., additional, Klein, K. G., additional, Stevens, M., additional, Martinović, Mihailo M., additional, Alterman, B. L., additional, Ďurovcová, Tereza, additional, Paulson, Kristoff, additional, Maruca, Bennett A., additional, Qudsi, Ramiz A., additional, Case, A. W., additional, Korreck, K. E., additional, Jian, Lan K., additional, Velli, Marco, additional, Lavraud, B., additional, Hegedus, A., additional, Bert, C. M., additional, Holmes, J., additional, Bale, Stuart D., additional, Larson, Davin E., additional, Livi, Roberto, additional, Whittlesey, P., additional, Pulupa, Marc, additional, MacDowall, Robert J., additional, Malaspina, David M., additional, Bonnell, John W., additional, Harvey, Peter, additional, Goetz, Keith, additional, and de Wit, Thierry Dudok, additional

Published
2020
Full Text
View/download PDF

16. What is the Solar Wind Frame of Reference?

Author

Němeček, Zdeněk, primary, Ďurovcová, Tereza, additional, Šafránková, Jana, additional, Němec, František, additional, Matteini, Lorenzo, additional, Stansby, David, additional, Janitzek, Nils, additional, Berger, Lars, additional, and Wimmer-Schweingruber, Robert F., additional

Published
2020
Full Text
View/download PDF

19. Rychlé variace obsahu helia ve slunečním větru a jejich vztah k procesům na Slunci

Author

Ďurovcová, Tereza, Šafránková, Jana, and Vandas, Marek

Subjects
solar wind, zastoupení helia, sluneční vítr, helium abundance, Wind, Spekr-R, Astrophysics::High Energy Astrophysical Phenomena, Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics
Abstract

Helium can significantly influence solar wind dynamics. The changes of its relative abundance are usually associated with crossings of the boundaries between adjacent flux tubes. However, the recent studies of the data from the BMSW instrument onboard the Spektr-R spacecraft show that the relative helium abundance could vary also inside the flux tubes. The differential motion of proton and helium solar wind components was suggested as a source of turbulence inside the flux tube. The thesis is devoted to the long-term statistical study of the fast helium abundance variations with respect to parameters of the solar wind and changes of its source region. For this purpose, the plasma data from the instruments onboard the Wind and the Spektr-R spacecraft and magnetic field measurements from Wind were used. Simultaneous changes of the relative helium abundance and solar wind parameters were investigated in the long-term Wind observations as well as in the observations prior to and behind interplanetary shocks. Finally, the study of differences between proton and helium velocities during solar minima and solar maxima was conducted.

Published
2017

20. Návrh detektoru pro měření parametrů plazmového prostředí v okolí Měsíce

Author

Ďurovcová, Tereza, Šafránková, Jana, and Vaverka, Jakub

Subjects
BMSW-LG, lunar magnetic anomaly, lunární magnetická anomálie, sluneční vítr, solar wind, Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics
Abstract

When the Moon is outside the Earth's magnetotail, its surface is directly ex- posed to the particles coming from the Sun. It is a consequence of a fact that the lunar surface is not protected by a global magnetic field or atmosphere. However, small-scale crustal magnetic fields have been found near the lunar surface; some of them can form so-called minimagnetospheres. Consequently, the vicinity of the Moon represents an interesting environment for the study of many processes in the solar wind plasma. The thesis is devoted to the proposal of a configuration of detectors for measurements of parameters in this plasma environment. The new device BMSW-LG which consists of the proposed configuration of detec- tors should monitor at 50−100 km altitude above the lunar surface on an orbit perpendicular to the ecliptic, and simultaneously compare the results with solar wind measurements. Experiences with the BMSW device were applied to this proposal. The SIMION software package which allows to test the trajectories of charged particles in electric fields inside the detector was used for simulations of the detector configuration.

Published
2015

21. Změny parametrů slunečního větru v průběhu slunečního cyklu

Author

Turčičová, Marie, Šafránková, Jana, and Ďurovcová, Tereza

Subjects
družice Wind, Wind, ICME, sluneční vítr, solar wind, Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics
Abstract

Statistical analysis of data from satellites that operate in the vicinity of the Sun can partly contribute to the elucidation of complex processes around the Sun. This thesis is devoted to a long-term statistical study of particular parameters of the solar wind. We have used data from the Wind satellite, especially its measurements of the velocity, density and temperature of protons and α- particles. By using standard statistical tools, we explored their behaviour during the 23th and 24th solar cycles, including a comparison of both cycles. Our results are in accordance with other known studies.

Published
2018

Catalog

Books, media, physical & digital resources
See catalog results