HelioWebM. Bzowski
flowchart
A[M. Bzowski]
AC["Associated Concepts (24)"]
AW["Authored Works (108)"]
CA["Linked Co-Authors (21)"]
CI["Linked Collaborating Institutions (69)"]
A== dcterms:relation ==>AC
AW== author ==>A
AW== author ==>CA
AW== affil ==>CI
click AC "#associated-concepts"
click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
NI["add incoming edge"]
NO["add outgoing edge"]
NI-- ? -->A
A-- ? -->NO
click NI "#add-incoming-edge"
click NO "#add-outgoing-edge"
style NI stroke-width:2px,stroke-dasharray: 5 5
style NO stroke-width:2px,stroke-dasharray: 5 5
- ORCiD
- https://orcid.org/0000-0003-3957-2359
- OpenAlex ID
- https://openalex.org/A5070696742 (API record)
Associated Concepts [?]
- Physics
- Quantum mechanics
- Astronomy
- Nuclear physics
- Astrophysics
- Plasma
- Magnetic field
- Solar wind
- Heliosphere
- Chemistry
- Organic chemistry
- Biology
- Ion
- Galaxy
- Interstellar medium
- Astrobiology
- Electron
- Energetic neutral atom
- Geography
- Geology
- Atomic physics
- Computer science
- Mathematics
- Meteorology
Authored Works
sorted by decreasing year, and then by display-name
- Signatures of Sheared or Swirled Flow of Interstellar Matter Ahead of the Heliosphere in Direct-Sampling Observations of Interstellar Neutral Gas at 1 au
- Methods of breaking the correlation of the inflow parameters of interstellar neutral gas, observed in direct-sampling experiments
- Influence of the Sun's active regions on the hydrogen backscatter glow
- High-Latitude Observations of Dissipation-Range Turbulence By The Ulysses Spacecraft During The Solar Minimum of 1993-96
- Extra-heliospheric background near the Lyman-alpha wavelength as revealed by cross-analysis of SOHO/SWAN maps, IUE observations, and WawHelioGlow modeling results
- Whence the Interstellar Magnetic Field Shaping the Heliosphere
- Magnetic Waves Excited by Newborn Pickup H+ Near Jupiter: Neutral Hydrogen Loss by the Planetary System
- Interstellar Neutral He Parameters from Crossing Parameter Tubes with the Interstellar Mapping and Acceleration Probe (IMAP) informed by 10 Years of Interstellar Boundary Explorer (IBEX) Observations
- ISN Hydrogen Signal from One Solar Minimum to the Next
- Complete Solar Cycle Observations of Interstellar Neutral Helium with IBEX: Consequences of Modulation in Heliospheric Boundaries
- A Three-Dimensional Map of the Heliosphere from IBEX
- 11 Year Full Solar Cycle Maps from IBEX-Lo Interstellar Neutral Atom Observations (2009-2019)
- Ulysses Observations of Solar Wind Turbulence During the First Fast Latitude Scan
- The Impact of Helium on Simulations of the Heliosphere
- Solar Wind Turbulence from 1 to 45 AU
- Observations of Low-Frequency Waves Excited by Newborn Interstellar Pickup He+ as Seen by the Ulysses Spacecraft
- Observations of Low-Frequency Waves Excited by Newborn Interstellar Pickup He+ as Seen by the Juno Spacecraft
- Higher Density of Interstellar Hydrogen from Pickup Ion Observations in the Outer Heliosphere
- Building A 3-D Map of the Heliosphere with IBEX
- Voyager Observations of the Turbulent Transport and Heating of the Solar Wind: 1 to 35 AU
- Using Simulations to Understand the Impact of Physical Processes on the Global Heliosphere
- Sounding the Dimensions of the Heliosphere Using the Time-Correlation Between IBEX ENA Observations and the Solar Wind Dynamic Pressure
- Science opportunities for ISN gas observations with adjustable boresight directions of IMAP-Lo
- Proxy model of the daily solar irradiance in EUV
- Properties of the Energetic Neutral Atom Emission from the Ribbon
- Distribution Function of Interstellar Neutral He As Will Be Observed From Interstellar Probe
- Contributions From Unresolved Point Sources in Observations of the Heliospheric Glow
- Breaking correlation of the interstellar neutral He flow parameters and determining the total ionization rate using the adjustable boresight of the IMAP-Lo detector
- What the 4.3 - 8 8 keV ENA flux reveals about termination shock pickup ion spectra and heliospheric structure?
- The ionization state of the local interstellar matter revealed by IBEX observations of interstellar neutral atoms
- The distribution function of ISN He outside and inside the heliopause
- Sounding The Dimensions of the Heliosphere Using the Time-Correlation Between IBEX ENA Observations and the Solar Wind Dynamic Pressure
- Science Opportunities from Simultaneous Observations of the Heliospheric Hydrogen and Helium Backscatter Glows
- Precise Measurement of the Interstellar Flow with IMAP, Informed by IBEX Observations
- Magnetic Waves Excited by Newborn Interstellar Pickup Ions Measured by the Voyager Spacecraft From 1 to 45 AU
- Energetic Neutral Atom Emission from the Heliospheric Nose
- Abundance of interstellar neutral gas species throughout the heliosphere: model results
- A Statistical Analysis of Secondary Interstellar Neutrals by Using IBEX-lo Sky Maps
- Warm Breeze due to Charge Exchange Collisions Between Neutral He Atoms and He+ Ions in the Outer Heliosheath.
- Time-dependent Models of ENA Emission and Comparison to the IBEX Observations
- The Downwind Hemisphere of the Heliosphere as Observed with IBEX-Lo from 2009 to 2015
- Solar wind structure out of the ecliptic plane over solar cycles
- Observational Evidence For The Comet-Like Heliosphere
- Observation-based Model of Evolution of the Lyman-Alpha Line Profile During the Solar Cycle
- Interstellar He Flow Analysis over the Past 9 Years with Observations over the Full IBEX-Lo Energy Range
- IBEX-lo Sky Maps of Secondary Interstellar Neutrals Helium and Oxygen
- Energetic Neutral Atom Emission from the Heliospheric Nose
- Determining the Dimensions of the Heliosphere from the Time-Correlation of IBEX ENA Observations with Variations in the Solar Wind Dynamic Pressure
- Using IBEX Data to Constrain the Heliosphere's Large-scale Structure: Interstellar Neutral Gas and the Warm Breeze
- The Roll-over of Heliospheric Neutral Hydrogen at Energies below 100 eV: Observations with IBEX and their Implications for the Pressure Balance of the Heliosheath
- The Parallax and the Energy-dependent Position of the IBEX Ribbon - Implication for its Origin
- Solar polar rotation and its effect on heliospheric neutral fluxes
- Probing the Boundaries of the Heliosphere Using Observations of the Polar ENA Flux from IBEX and Cassini/INCA
- Observations from 1 to 6 AU of Low-Frequency Magnetic Waves due to Newborn Interstellar Pickup Ions Using Ulysses, Voyager and ACE Data
- Interstellar O, He and Magnetic Field from IBEX and IMAP Predictions
- Interstellar He flow analysis over the past 8 years with IBEX neutral observations
- The local interstellar medium based on ISN He observations with Ulysses and IBEX and future IMAP measurements
- Probing the Boundaries of the Heliosphere by Analyzing the Temporal Variation of the Polar ENA Flux
- Observing the Interstellar Neutral He Gas Flow with a Variable IBEX Pointing Strategy
- Modeling of the solar cycle modulated interstellar He, Ne, and O pick-up ion flux along the Earth orbit
- Interstellar neutral flow characteristics, composition, and interaction with the heliosphere - neutral gas and pickup ion analysis from ongoing observations and perspectives for IMAP
- Impact of Planetary Gravitation on High Precision Neutral Atom Measurements
- IBEX-Lo Observations of Secondary Interstellar Helium and Oxygen Distributions
- Hypothetical signals beyond the primary ISN He flow as perspective targets for IMAP
- Helium Energetic Neutral Atoms - a New Perspective for Heliospheric and Extraheliospheric Observations with IMAP
- Warmer Local Interstellar Medium: Resolving the Ulysses-Ibex Enigma and the Promise of IMAP
- The symmetry and mass of halo Coronal Mass Ejections (CMEs) as quantitative predictors for severe space weather at Earth.
- The ENA Ribbon and the ISN Flow as Key Tools for the ISM-Heliosphere Interaction - Open Questions, the Need for Future Observations with IBEX and IMAP
- Testing the Interstellar Wind Helium Flow Direction with Galileo Euvs Data
- Potential of Energetic Neutral Helium Atoms to Resolve Structure of the Local Interstellar Medium within 0.1 Parsec
- Observing the Interstellar Medium Flow over the Past 6 Years with IBEX-Lo
- Local Interstellar Cloud Temperatures as Observed with IBEX
- Interstellar He Parameters in Front of the Heliosphere: View from Ibex and Ulysses
- ENA Time Variation in the IBEX skymaps and at the Poles
- Time-Variation of ENA Flux Observed by IBEX at the Heliospheric Poles: Has the Recovery Begun?
- The Evolving Heliosphere Observed Over IBEX's First Five Years (2009-2013)
- Spatial and temporal interstellar structure: what will IBEX find? (Invited)
- Observational and Modeling Study of Pickup Ion Cooling Behavior in Solar Wind Compression and Rarefaction Regions
- New population of neutral helium in the heliosphere discovered by IBEX
- Maxwellian vs kappa distribution functions of neutral interstellar He as they would be seen by IBEX-Lo
- Interstellar neutral gas flow measurements with the Interstellar Boundary Explorer (IBEX) - implications on heliospheric boundary diagnostic (Invited)
- Interstellar Neutral Gas Inside and Outside the Heliosphere as Viewed from the Interstellar Boundary Explorer (IBEX) (Invited)
- Expected modulation of heavy neutral interstellar species and pick-up ions at Earth
- Energetic Neutral Atoms Measured by the Interstellar Boundary Explorer (IBEX): Evidence for Multiple Heliosheath Ion Populations
- Radiation Pressure from IBEX Observations of Interstellar Neutral Hydrogen
- IBEX polar heliospheric ENA flux variations and correlations with solar wind observations over more than three years
- Filtration of interstellar helium in the heliosphere
- Diagnostics of the Interstellar Gas with IBEX Neutral Atom Observations in the Inner Heliosphere
- Using IBEX Polar ENA Flux Variations to Estimate the Dimensions of the Outer Heliosphere
- Our evolving heliosphere: The first three years of IBEX observations
- Observation of Secondary O in the Interstellar Neutral Gas Flow with the Interstellar Boundary Explorer (IBEX)
- New Neutral Interstellar Helium Flow Parameters Based on IBEX-Lo Observations
- Maximum Likelihood Fitting of the Interstellar Neutral Gas Flow as Observed by IBEX for Comparison with Analytical Modeling
- Local Interstellar Neutral Hydrogen sampled in-situ by IBEX
- Investigation of the Cooling Behavior of Interstellar HE+ Pickup Ions in the Inner Heliosphere
- Two Years of Interstellar Flow Observations with the Interstellar Boundary Explorer (IBEX) - Implications on the LIC Parameters and the Boundary (Invited)
- The energy spectrum of heliospheric ENAs and properties of their parent protons
- Short timescale variation in the heliospheric ENA flux: IBEX observations and correlations with solar wind observations
- Separation of the IBEX Ribbon from the Globally Distributed Energetic Neutral Atom Flux
- Flow of neutral interstellar helium into the heliosphere as inferred from IBEX-Lo observations and simulations
- Translation of IBEX-measured ENA fluxes to the outer heliosphere
- Toward calculating heliospheric filtration of interstellar oxygen on its way to IBEX
- Time Variations of the ENA Flux Observed by IBEX: Is the Outer Heliosphere Evolving?
- Modeling the local interstellar flow: comparisons to first observations from IBEX
- Direct Observations of Interstellar H, He, and O by the Interstellar Boundary Explorer (Invited)
- Comparison of Interstellar Boundary Explorer Observations with 3-D Global Heliospheric Models
- Modeling the neutral hydrogen distribution function at the termination shock
- Expected Performance of the IBEX Star Sensor for Accurate Pointing of IBEX-lo Sensor
Linked Co-Authors
- Bernard J. Vasquez
- Charles W. Smith
- D. B. Reisenfeld
- D. J. McComas
- E. Möbius
- F. Bagenal
- F. Rahmanifard
- G. B. Crew
- H. Fichtner
- H. O. Funsten
- I. Kowalska-Leszczyńska
- J. M. Sokół
- Kurt D. Retherford
- M. A. Kubiak
- M. R. Argall
- M. Strumik
- N. A. Schwadron
- P. H. Janzen
- P. Swaczyna
- R. M. Winslow
- S. A. Fuselier
Linked Collaborating Institutions
- Academy of Athens, Office of Space Research
- Aerospace Corporation, California
- Arizona State University
- Boston University, Department of Astronomy
- Boston University, Massachusetts
- Central Arizona University
- Christian Albrechts University of Kiel, Germany
- Dartmouth College, Department of Physics and Astronomy
- Dartmouth College, New Hampshire
- Florida State University
- George Mason University, Virginia
- Haystack Observatory
- Humboldt University of Berlin, Germany
- Jet Propulsion Laboratory
- Johns Hopkins University, Applied Physics Laboratory
- Johns Hopkins University, Maryland
- Lockheed Martin, Denver
- Lockheed Martin, Palo Alto
- Los Alamos National Laboratory, New Mexico
- Los Alamos National Laboratory, Space Sciences
- Massachusetts Institute of Technology
- Max-Planck-Institute for Extraterrestrial Physics, Garching
- Max-Planck-Institute for Solar System Research, Lindau
- Monterey Institute for Research in Astronomy, California
- NASA Ames Research Center
- NASA Goddard Space Flight Center, Maryland
- NASA HQ
- Nagoya University, Japan
- Nagoya University, Solar Terrestrial Environment Laboratory
- Polish Academy of Sciences
- Polish Academy of Sciences, Space Research Center
- Princeton University, Department of Astrophysical Sciences
- Princeton University, New Jersey
- RAS, Space Research Institute, Moscow
- Rensselaer Polytechnic Institute, New York
- Rheinische Friedrich Wilhelms University of Bonn, Germany
- Ruhr University, Bochum, Germany
- Southwest Research Institute, Boulder
- Southwest Research Institute, Texas
- Space Science Institute, Colorado
- U.S. Department of the Navy, Naval Research Laboratory, Washington DC
- Union College, New York
- University of Alabama, Huntsville
- University of Alabama, Huntsville, Department of Physics
- University of Bern, Physics Institute
- University of Bern, Switzerland
- University of Bonn, Argelander Institute for Astronomy
- University of California, Berkeley
- University of California, Los Angeles
- University of Chicago
- University of Chicago, Department of Astronomy and Astrophysics
- University of Colorado, Boulder
- University of Colorado, Boulder, Laboratory for Atmospheric and Space Physics
- University of Delaware, Department of Physics and Astronomy
- University of Michigan
- University of Michigan, Department of Atmospheric Oceanic and Space Sciences
- University of Montana
- University of Montana, Department of Physics and Astronomy
- University of New Hampshire
- University of New Hampshire, Department of Physics and Astronomy
- University of New Hampshire, Institute for the Study of Earth Oceans and Space
- University of Sao Paulo, Brazil
- University of Southern California
- University of Tasmania, Australia
- University of Texas, San Antonio
- University of Turku, Finland
- University of Waikato, New Zealand
- Wentworth Institute of Technology, Massachusetts
- Yale University, Connecticut
Add Incoming Edge
Login via ORCiD to contribute.
Add Outgoing Edge
Login via ORCiD to contribute.