Search

Your search keyword '"Borovsky, Joseph"' showing total 523 results
Start Over Author "Borovsky, Joseph"
523 results on '"Borovsky, Joseph"'

1. Classification of Solar Wind with Machine Learning

Author

Camporeale, Enrico, Carè, Algo, and Borovsky, Joseph E.

Subjects
Physics - Space Physics
Abstract

We present a four-category classification algorithm for the solar wind, based on Gaussian Process. The four categories are the ones previously adopted in Xu & Borovsky [2015]: ejecta, coronal hole origin plasma, streamer belt origin plasma, and sector reversal origin plasma. The algorithm is trained and tested on a labeled portion of the OMNI dataset. It uses seven inputs: the solar wind speed $V_{sw}$, the temperature standard deviation $\sigma_T$, the sunspot number $R$, the $f_{10.7}$ index, the Alfven speed $v_A$, the proton specific entropy $S_p$ and the proton temperature $T_p$ compared to a velocity-dependent expected temperature. The output of the Gaussian Process classifier is a four element vector containing the probabilities that an event (one reading from the hourly-averaged OMNI database) belongs to each category. The probabilistic nature of the prediction allows for a more informative and flexible interpretation of the results, for instance being able to classify events as 'undecided'. The new method has a median accuracy larger than $90\%$ for all categories, even using a small set of data for training. The Receiver Operating Characteristic curve and the reliability diagram also demonstrate the excellent quality of this new method. Finally, we use the algorithm to classify a large portion of the OMNI dataset, and we present for the first time transition probabilities between different solar wind categories. Such probabilities represent the 'climatological' statistics that determine the solar wind baseline., Comment: accepted in J. Geophys. Res

Published
2017
Full Text
View/download PDF

4. The Critical Need for Innovations in Instruments and Techniques to Enable In-Situ Cold Ion and Cold Electron Measurements within the Magnetosphere

Author

Maldonado, Carlos, primary, Delzanno, Gian, additional, Resendiz Lira, Pedro, additional, Lee, Justin, additional, Larsen, Brian, additional, Fernandes, Philip, additional, Wilson, Gabriel, additional, Reisenfeld, Daniel, additional, Borovsky, Joseph, additional, Goldstein, J., additional, Coffey, Victoria, additional, Gallagher, Dennis, additional, Kitamura, N., additional, and Chappell, C., additional

Published
2022
Full Text
View/download PDF

5. Variability of Earth's ionospheric outflow in response to the dynamic terrestrial exosphere.

Author

Lin, Mei-Yun, Cucho-Padin, Gonzalo, Oliveira, Pedro, Glocer, Alex, Rojas, Enrique, Borovsky, Joseph E, and Huba, Joseph

Subjects
ION energy, ION bombardment, PRODUCTION losses, ATOMIC hydrogen, ATMOSPHERE
Abstract

The most abundant neutral constituent in the exospheric region (i.e., beyond = 500 km altitude) is the atomic hydrogen (H); however, its density distributions predicted by physics-based models have been challenged by satellite-based observations of its far ultraviolet emissions. This discrepancy may impact magnetospheric ions' densities and velocities since numerous chemistry and ion-neutral coupling interactions rely sensitively on the underlying neutral hydrogen population. The Polar Wind Outflow Model a first-principled model for relevant ion species in the high-latitude ionosphere, is employed to investigate the role of neutral H on the ionospheric outflow. Specifically, variability in the outflow of ionospheric H+, He+, N+, and O+ as a response to systematic enhancement and depletion of H number densities were simulated. The altitudedependent ion density and energy partition profiles vary with neutral H density, solar activities, and ion species. These findings suggest that the exosphere plays a crucial role in controlling the production and loss of ions through ionospheric chemistry, as well as the energy contributions by altering ionneutral-electron collisions and the ambipolar electric field to the high-latitude ionospheric outflow. As a result, the escape rates of the ionospheric outflow are directly associated with exospheric distributions. This work potentially helps understand the dominant mechanisms of atmospheric escape, particularly during a hydrogen-rich early Earth's and exoplanet's atmosphere, which is known to play a significant role in understanding the evolution of Earth's atmosphere. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

10. CPIC: a Curvilinear Particle-In-Cell code for plasma-material interaction studies

Author

Delzanno, Gian Luca, Camporeale, Enrico, Moulton, J. David, Borovsky, Joseph E., MacDonald, Elizabeth A., and Thomsen, Michelle F.

Subjects
Physics - Plasma Physics
Abstract

We describe a new electrostatic Particle-In-Cell (PIC) code in curvilinear geometry called Curvilinear PIC (CPIC). The code models the microscopic (kinetic) evolution of a plasma with the PIC method, coupled with an adaptive computational grid that can conform to arbitrarily shaped domains. CPIC is particularly suited for multiscale problems associated with the interaction of complex objects with plasmas. A map is introduced between the physical space and the logical space, where the grid is uniform and Cartesian. In CPIC, most operations are performed in logical space. CPIC was designed following criteria of versatility, robustness and performance. Its main features are the use of structured meshes, a scalable field solver based on the black box multigrid algorithm and a hybrid mover, where particles' position is in logical space while the velocity is in physical space. Test examples involving the interaction of a plasma with material boundaries are presented., Comment: 11 pages, 7 figures, in press on IEEE Transactions on Plasma Science

Published
2013
Full Text
View/download PDF

11. Spectral scaling laws in MHD turbulence simulations and in the solar wind

Author

Boldyrev, Stanislav, Perez, Jean Carlos, Borovsky, Joseph E., and Podesta, John J.

Subjects
Astrophysics - Astrophysics of Galaxies, Physics - Fluid Dynamics, Physics - Plasma Physics
Abstract

The question is addressed to what extent incompressible magnetohydrodynamics (MHD) can describe random magnetic and velocity fluctuations measured in the solar wind. It is demonstrated that distributions of spectral indices for the velocity, magnetic field, and total energy obtained from high resolution numerical simulations are qualitatively and quantitatively similar to solar wind observations at 1 AU. Both simulations and observations show that in the inertial range the magnetic field spectrum E_b is steeper than the velocity spectrum E_v with E_b >~ E_v and that the residual energy E_R = E_b-E_v decreases nearly following a k_perp^-2 scaling.

Published
2011
Full Text
View/download PDF

13. Editorial: Editor's challenge in space physics: solved and unsolved problems in space physics.

Author

Borovsky, Joseph E.

Subjects
*MAGNETOSPHERIC physics, *MOON, *SPACE environment, *SUN, *INTERSTELLAR medium, *SOLAR wind
Abstract

This article is an editorial that discusses the current state of space physics and the open questions that still exist in the field. It highlights the progress that has been made in understanding various aspects of space, such as planetary magnetospheres, the solar environment, and the interstellar medium. The editorial also introduces a research topic that includes 17 papers addressing different space physics issues, ranging from wave-particle interactions to the coupling of the Sun and Earth's atmosphere. The goal of this research topic is to assess the state of space physics, identify outstanding questions, and encourage dialogue among researchers. [Extracted from the article]

Published
2024
Full Text
View/download PDF

15. The Need to Understand the Cold Ion and Cold Electron Populations of the Earth’s Magnetosphere

Author

Delzanno, Gian Luca, primary, Borovsky, Joseph, additional, Bortnik, Jacob, additional, Chappell, Charles, additional, Donovan, Eric, additional, Fernandes, Philip, additional, Gallagher, Dennis, additional, Goldstein, Jerry, additional, Henderson, Michael, additional, Holmes, Justin, additional, Hospodarsky, George, additional, Jordanova, Vania, additional, Koshkarov, Oleksandr, additional, Maldonado, Carlos, additional, Nishimura, Toshi, additional, Reisenfeld, Daniel, additional, Lira, Pedro Resendiz, additional, Roytershteyn, Vadim, additional, Skoug, Ruth, additional, Spanswick, Emma, additional, Svyatsky, Daniil, additional, and Usanova, Maria, additional

Published
2023
Full Text
View/download PDF

16. The Critical Need for Innovations in Instruments and Techniques to Enable In-Situ Cold Ion and Cold Electron Measurements within the Magnetosphere

Author

Maldonado, Carlos, primary, Delzanno, Gian Luca, additional, Lira, Pedro Resendiz, additional, Lee, Justin, additional, Larsen, Brian, additional, Wilson, Gabriel, additional, Fernandes, Philip, additional, Reisenfeld, Daniel, additional, Borovsky, Joseph, additional, Goldstein, Jerry, additional, Coffey, Victoria, additional, Gallagher, Dennis, additional, Kitamura, Naritoshi, additional, and Chappell, Charles, additional

Published
2023
Full Text
View/download PDF

17. Follow the mass: the Science Case for Transformational Multi-scale Observations of Mass and Energy Flow Dynamics in Earth’s Magnetosphere

Author

Malaspina, David, primary, Ergun, Robert, additional, Goldstein, Jerry, additional, Spittler, Constance, additional, Unruh, Bryce, additional, Link, Jason, additional, Parker, Jeffrey, additional, Moudt, Lauren De, additional, Andersson, Laila, additional, Borovsky, Joseph, additional, Chu, Xiangning, additional, Gallagher, Dennis, additional, Jordanova, Vania, additional, Lejosne, Solene, additional, Maruyama, Naomi, additional, Thaller, Scott, additional, Walsh, Brian, additional, Bortnik, Jacob, additional, Breneman, Aaron, additional, Chasapis, Alexandros, additional, Chen, Thomas, additional, Claudepierre, Seth, additional, Cunningham, Gregory, additional, Drozdov, Alexander, additional, Elkington, Scot, additional, Gabrielse, Christine, additional, Goodrich, Katherine, additional, Greeley, Ashley, additional, Larsen, Brian, additional, Lee, Justin, additional, Maldonaldo, Carlos, additional, Richards, Phil, additional, Song, Paul, additional, and Usanova, Maria, additional

Published
2023
Full Text
View/download PDF

18. Seven Sisters—Pathfinder Mission to Protect Humanity from Space Weather

Author

Nykyri, Katariina, primary, Argall, Matthew, additional, Borovsky, Joseph, additional, Broll, Jeffrey, additional, Burch, Jim, additional, Burkholder, Brandon, additional, Cuéllar, Roberto, additional, Moudt, Lauren De, additional, Ebert, Robert Wilkes, additional, Herring, Mark, additional, Jorgensen, Therese Moretto, additional, Ma, Xuanye, additional, Michael, Hesse, additional, Ogasawara, Keiichi, additional, Opher, Merav, additional, Parker, Jeff, additional, Rosen, Mitchell, additional, Russell, Christopher, additional, Sibeck, David, additional, Torbert, Roy, additional, Wilder, Frederick, additional, and Wing, Simon, additional

Published
2023
Full Text
View/download PDF

19. Critical Solar Wind Measurements Required For the Next Generation Space Weather Prediction Mission: Science Motivation for the Seven Sisters Mission

Author

Nykyri, Katariina, primary, Adhikari, Laxman, additional, Argall, Matthew, additional, Borovsky, Joseph, additional, Broll, Jeffrey, additional, Burkholder, Brandon, additional, DiMatteo, Simon, additional, Ebert, Robert Wilkes, additional, Egedal, Jan, additional, Hesse, Michael, additional, Holland, Katherine, additional, Jorgensen, Therese Moretto, additional, Kavosi, Shiva, additional, Liou, Yu-Lun, additional, Ma, Xuanye, additional, Ofman, Leon, additional, Ogasawara, Keiichi, additional, Opher, Merav, additional, Poh, Gang Kai, additional, Russell, Christopher, additional, Sibeck, David, additional, Torbert, Roy, additional, Viall-Kepko, Nicholeen, additional, Wallace, Samantha, additional, West, Matthew, additional, Wilder, Frederick, additional, and Wing, Simon, additional

Published
2023
Full Text
View/download PDF

20. The Missing Connections in the Magnetosphere-Ionosphere-Thermosphere System: The Science Motivation for the Magnetosphere-Ionosphere Observatory (MIO)

Author

Borovsky, Joseph E., primary, Carlsten, Bruce, additional, Delzanno, Gian Luca, additional, Donovan, Eric, additional, Gabrielse, Christine, additional, Gilchrist, Brian, additional, Henderson, Mike, additional, Holloway, Michael, additional, Kepko, Larry, additional, Marshall, Bob, additional, Matthews, Jessica, additional, Nanni, Emilio, additional, Roytershteyn, Vadim, additional, Ruohoniemi, Mike, additional, Sanchez, Ennio, additional, Semeter, Josh, additional, Spanswick, Emma, additional, Usanova, Maria, additional, Varney, Roger, additional, Wing, Simon, additional, and Zou, Sasha, additional

Published
2023
Full Text
View/download PDF

24. Seven Sisters: a mission to study fundamental plasma physical processes in the solar wind and a pathfinder to advance space weather prediction

Author

Nykyri, Katariina, primary, Ma, Xuanye, additional, Burkholder, Brandon, additional, Liou, Yu-Lun, additional, Cuéllar, Roberto, additional, Kavosi, Shiva, additional, Borovsky, Joseph E., additional, Parker, Jeff, additional, Rosen, Mitchell, additional, De Moudt, Lauren, additional, Ebert, Robert Wilkes, additional, Ogasawara, Keiichi, additional, Opher, Merav, additional, Sibeck, David Gary, additional, Di Matteo, Simone, additional, Viall, Nicholeen, additional, Wallace, Samantha, additional, Jorgensen, Therese M., additional, Hesse, Michael, additional, West, Matthew J., additional, Adhikari, Laxman, additional, Argall, Matthew R., additional, Egedal, Jan, additional, Wilder, Frederick, additional, Broll, Jeffrey, additional, Poh, Gangkai, additional, Wing, Simon, additional, and Russell, Christopher, additional

Published
2023
Full Text
View/download PDF

35. Interplanetary mesoscale observatory (InterMeso): A mission to untangle dynamic mesoscale structures throughout the heliosphere

Author

Allen, Robert C., primary, Smith, Evan J., additional, Anderson, Brian J., additional, Borovsky, Joseph E., additional, Ho, George C., additional, Jian, Lan, additional, Krucker, Sämuel, additional, Lepri, Susan, additional, Li, Gang, additional, Livi, Stefano, additional, Lugaz, Noé, additional, Malaspina, David M., additional, Maruca, Bennett A., additional, Mostafavi, Parisa, additional, Raines, Jim M., additional, Verscharen, Daniel, additional, Vievering, Juliana, additional, Vines, Sarah K., additional, Whittlesey, Phyllis, additional, Wilson III, Lynn B., additional, and Wimmer-Schweingruber, Robert F., additional

Published
2022
Full Text
View/download PDF

38. Complexity Heliophysics: A [new] system science that transcends the previous boundaries of our field

Author

McGranaghan, Ryan, Datta-Barua, Seebany, Thayer, Jeffrey, Borovsky, Joseph, Johnson, Jay, Wing, Simon, Baker, Dan, and Materassi, Massimo

Subjects
Complex systems, Emergent phenomena, Space weather, Magnetosphere/ionosphere interactions, Uncertainty, Scientific reasoning/inference, Emerging informatics technologies, Epistemology, Team Science, Risk and resiliency, Knowledge representation and knowledge bases, Convergence Research, Solar wind/magnetosphere interactions, Philosophy of science, Probability distributions: heavy and fat-tailed, Fractals and multifractals, Scaling: spatial and temporal
Abstract

The 21st century is the time of complexity. We delineate it and its importance as necessary to solve ‘wicked problems.’ Inherently transdisciplinary, trans-scale, and interconnected to living systems, the solution to Heliophysics’ identity crisis and to unlock the next generation of scientific discovery may be to embrace complexity. With the right foresight, direction, and incentive over the next ten years, Heliophysics can become a beacon for how all of society thinks about and does complexity science.

Published
2022
Full Text
View/download PDF

39. InternationalJournalGeneralSystem

Author

Borovsky, Joseph

Abstract

Hourly data 1991-2007 of three aggregate variables describing the magnetospheric system and three aggregate solar-wind driver variables.

Published
2022
Full Text
View/download PDF

40. Nonequilibrium Phenomena in the Magnetosphere : Phase Transition, Self-organized Criticality and Turbulence

Author

Sharma, A. Surjalal, Baker, Daniel N., Borovsky, Joseph E., Burton, W.B., editor, Kuijpers, J. M. E., editor, Van Den Heuvel, E. P. J., editor, Van Der Laan, H., editor, Appenzeller, I., editor, Bahcall, J. N., editor, Bertola, F., editor, Cassinelli, J. P., editor, Cesarsky, C. J., editor, Engvold, O., editor, McCray, R., editor, Murdin, P. G., editor, Pacini, F., editor, Radhakrishnan, V., editor, Sato, K., editor, Shu, F. H., editor, Somov, B. V., editor, Sunyaev, R. A., editor, Tanaka, Y., editor, Tremaine, S., editor, Weiss, N. O., editor, Sharma, A. Surjalal, editor, and Kaw, Predhiman K., editor

Published
2005
Full Text
View/download PDF

46. The Triple Dusk-Dawn Aberration of the Solar Wind at Earth

Author

Borovsky, Joseph E.

Subjects
Astronomy and Astrophysics
Abstract

In this Brief Report it is pointed out that there are three dusk-dawn aberrations of the solar-wind plasma and magnetic structure approaching Earth and the magnitudes of these aberrations are estimated for various solar-wind types monitored from L1. Solar-wind monitors closer to the Earth than L1 would have superior performances.

Published
2022
Full Text
View/download PDF

47. Is the Solar Wind Electron Strahl a Seed Population for the Earth’s Electron Radiation Belt?

Author

Borovsky, Joseph E. and Runov, Andrei

Subjects
Astronomy and Astrophysics
Abstract

1) Since the outer electron radiation belt is lost on occasion, the radiation belt needs seed electrons to rebuild. 2) The clear candidate for that seed population is energetic substorm-injected electrons in the dipolar magnetosphere. 3) The energetic substorm-injected electrons in the dipole come from the suprathermal electron population in the magnetotail plasma sheet, delivered by substorms. Scenario (1)–3) begs the question: Where do these magnetotail suprathermal electrons come from? We are hypothesizing that one source (perhaps the dominant source) is the energetic field-aligned electron strahl in the solar wind, which are electrons fresh from the solar corona.

Published
2022
Full Text
View/download PDF

48. Plasma Imaging, LOcal Measurement, and Tomographic Experiment (PILOT): A Mission Concept for Transformational Multi-Scale Observations of Mass and Energy Flow Dynamics in Earth’s Magnetosphere

Author

Malaspina, David, primary, Ergun, Robert, additional, Goldstein, Jerry, additional, Spittler, Constance, additional, Andersson, Laila, additional, Borovsky, Joseph, additional, Chu, Xiangning, additional, De Moudt, Lauren, additional, Gallagher, Dennis, additional, Jordanova, Vania, additional, Lejosne, Solène, additional, Link, Jason, additional, Maruyama, Naomi, additional, Parker, Jeffery, additional, Thaller, Scott, additional, Unruh, Bryce, additional, and Walsh, Brian, additional

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results