HelioWebChristian Möstl
flowchart
A[Christian Möstl]
AC["Associated Concepts (25)"]
AW["Authored Works (73)"]
CA["Linked Co-Authors (39)"]
CI["Linked Collaborating Institutions (93)"]
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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"
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- ORCiD
- https://orcid.org/0000-0001-6868-4152
- OpenAlex ID
- https://openalex.org/A5000417828 (API record)
Associated Concepts [?]
- Physics
- Quantum mechanics
- Magnetic field
- Plasma
- Nuclear physics
- Solar wind
- Astronomy
- Coronal mass ejection
- Geography
- Geology
- Meteorology
- Engineering
- Computer science
- Astrophysics
- Geophysics
- Biology
- Aerospace engineering
- Interplanetary spaceflight
- Heliosphere
- Astrobiology
- Space weather
- Mathematics
- Spacecraft
- Chemistry
- Organic chemistry
Authored Works
sorted by decreasing year, and then by display-name
- Writhed Magnetic Flux Rope Model
- The geomagnetic Vigil: How useful are Measurements at L5 for forecasting a Geomagnetic Index like Dst?
- Multispacecraft Heliospheric Mission: Science Case and Concepts
- Multipoint Probing of a Large-scale Complex Heliospheric Structure Knocking a Series of Satellites in February 2022
- Multipoint In Situ and Imaging Observations of Interplanetary Coronal Mass Ejections with Solar Orbiter, BepiColombo, Parker Solar Probe, Wind, and STEREO-A
- Machine Learning for solving the Bz Problem in Space Weather Forecasting
- The Observational Uncertainty of Coronal Hole Boundaries in Automated Detection Schemes
- Multipoint ICME events during the first 1.5 years of combined Solar Orbiter, BepiColombo, Parker Solar Probe, Wind and STEREO-A observations
- Modelling deformable and curved ICME flux rope structures
- Machine learning for predicting the Bz magnetic field component from upstream in situ observations of solar coronal mass ejections
- HI-based CME Modeling and the Influence of the Drag-force on the CME Frontal Shape
- Forecasting the ambient solar wind from coronal magnetic models using Gradient Boosting Regression
- Automatic Detection and Classification of ICMEs in Solar Wind Data
- A Catalogue of ICMEs Observed by Juno between 1 and 5.4 AU
- Prediction of the In Situ Coronal Mass Ejection Rate for Solar Cycle 25: Implications for Parker Solar Probe In Situ Observations
- Predicting GICs from L1 solar wind data using geophysical methods in combination with machine learning
- Multi-point magnetic flux rope analysis for the 2020 April 19 CME observed in situ by Solar Orbiter and Wind
- In-Situ Multi-Spacecraft and Remote Imaging Observations of the First CME Detected by Solar Orbiter
- First CME and Forbush decrease observed at Solar Orbiter using EPD
- Evolution of coronal mass ejections and the corresponding Forbush decreases: modelling vs. multi-spacecraft observations
- Detecting Mirror Mode Waves at Mars with MAVEN: from Case Study to Statistical Occurrence Maps
- An Adaptive Prediction System for Specifying Solar Wind Conditions Near the Sun
- A Smallsat Platform for Large-scale Interplanetary Studies (SPLIS): Rideshare Opportunities and Pathway to Sub-L1 Space Weather Missions
- Following the evolution of coronal mass ejections across the heliosphere
- Assessing the uncertainty of coronal hole boundary locations
- Tracking and Validating ICMEs Propagating Towards Mars using STEREO Heliospheric Imagers Combined with Forbush Decreases Detected by MSL/RAD
- The Magnetic Field Geometry of Small Solar Wind Flux Ropes Inferred from their Twist Distribution
- Multi-spacecraft Observations of Reconnection in a Turbulent ICME Sheath
- First observations of magnetic holes deep within the coma of a comet
- Evolution of a coronal mass ejection from the Sun to Saturn
- The Heliospheric Cataloguing, Analysis and Techniques Service (HELCATS) project
- Deriving and Constraining 3D CME Kinematic Parameters from Multi-Viewpoint Coronagraph Images
- Sun-to-Earth Characteristics of the 2012 July 12 Coronal Mass Ejection and Associated Geo-effectiveness
- A Catalogue of Geometrically-Modelled Coronal Mass Ejections Observed by the STEREO Heliospheric Imagers
- Prediction of Geomagnetic Storm Strength from Inner Heliospheric In Situ Observations
- HELCATS - Heliospheric Cataloguing, Analysis and Techniques Service
- First Results on Visualization and Verification of the STEREO Heliospheric Imager CME Catalogue with In Situ Data from the Heliophysics System Observatory
- A new observation-based fitting method assuming an elliptical CME frontal shape and a variable speed
- The HELCATS Project: Characterising the Evolution of Coronal Mass Ejections Observed During Solar Cycle 24
- On Modeling Flux Rope-type Small Interplanetary Transients by Non-Force Free Methods
- Magnetic Field-line Length and Twist Distributions within Interplanetary Flux Fopes from Wind Spacecraft Measurements
- Using Multi-Spacecraft Technique to Identify the Structure of Magnetic Field in CMEs
- Systematic testing of different de-projection methods for STEREO imagery
- Studying aerodynamic drag for modeling the kinematical behavior of CMEs
- Constrained Kinematics of ICMEs from Multi-point in Situ and Heliospheric Imaging Data
- Connecting white light to in situ observations of 22 coronal mass ejections from the Sun to 1 AU
- A Statistical Analysis of Properties of Small Transients in the Solar Wind 2007-2009: STEREO and Wind Observations
- Validating a new method for deriving the kinematics of ICMEs with a numerical simulation
- The Deflection of CMEs During Instances of CME-CME Interactions
- Magnetic Field Structure in ICMEs: Comparison and Validity of Different Models
- Forecasting coronal mass ejections at 1 AU using Heliospheric Imagers
- Effects of a Large ICME on Atmospheric Escape at Venus
- Deep Solar Activity Minimum 2007-2009: Solar Wind Properties and Major Effects on the Terrestrial Magnetosphere
- Constraining Sun-to-Earth Propagation of Coronal Mass Ejections with Coordinated Heliospheric Imaging, Radio and In Situ Observations
- A Comprehensive Analysis of Properties of Small Transients in the Solar Wind in 2007-2009: STEREO-A and Wind Observations
- Validation of a New Method to Derive Sun-to-1 AU Kinematics of ICMEs with a Numerical Simulation
- The first STEREO multi-event: Numerical simulation of coronal mass ejections (CMEs) launched on August 1, 2010
- The Structure of Magnetic Clouds in the Inner Heliosphere: An Approach Through Grad-Shafranov Reconstruction
- Propagation behavior of interplanetary CMEs: driving versus drag force
- Multi-Spacecraft Reconstruction of the Magnetic Fields InICMEs with Writhe Structure
- Interaction between Coronal Mass Ejections Viewed in Coordinated Imaging and In Situ Observations
- Heliospheric Observations of STEREO-Directed Events in 2008-2010: Lessons for Future Observations
- Elliptical approximation for the fronts of ICMEs and application to STEREO events in August 2010 and February 2011
- Comparison between MHD modeled and in situ measured solar wind parameters
- The CME/ICME relationship for the 3-5 April 2010 and Aug 1-4 2010 events
- Propagation Directions and Kinematics of STEREO CME/ICMEs Events
- Nature of the Magnetic Fields in Magnetic Clouds: Twist or Writhe?
- Multiple, Distant (40 deg) in situ Observations of a Magnetic Cloud and a Corotating Interaction Region Complex
- PROPAGATION AND EVOLUTION OF THE JUNE 1st 2008 CME IN THE INTERPLANETARY MEDIUM
- Linking remote imagery of two coronal mass ejections to their in situ signatures at 1 AU
- Multi-spacecraft Recovery of a Magnetic Cloud and its Origin From Magnetic Reconnection on the Sun
- Two-spacecraft Reconstruction of a Magnetic Cloud and Comparison to its Solar Source
- The November 20, 2003 magnetic cloud: Comparison of two models.
Linked Co-Authors
- A. B. Galvin
- Ali Rahmati
- Anders Eriksson
- Andreas J. Weiss
- Astrid Veronig
- B. J. Lynch
- Bin Zhuang
- C. J. Henney
- Charles J. Farrugia
- Charles W. Smith
- Chris Lowder
- Christina O. Lee
- Daniel Heyner
- Emma E. Davies
- Erika Palmerio
- Fernando Carcaboso
- Hannah T. Rüdisser
- J. P. Eastwood
- L. K. Jian
- Luke Barnard
- M. J. Owens
- Manuela Temmer
- Martin A. Reiss
- Miho Janvier
- Noé Lugaz
- P. Lowrance
- Peter Macniece
- R. C. Allen
- R. M. Winslow
- Rachael Filwett
- Robert J. Lillis
- Roger C. Bailey
- S. D. Bale
- Sanchita Pal
- Simon Good
- Stefaan Poedts
- Tanja Amerstorfer
- Teresa Nieves‐Chinchilla
- Ute Amerstorfer
Linked Collaborating Institutions
- Aalto University, Finland
- Atmospheric & Space Technology Research Associates (ASTRA)
- Austrian Academy of Sciences
- Austrian Institute of Space Science Research
- CAS, Purple Mountain Observatory
- CAS, Yunnan Observatory
- Catholic University, Washington DC
- Central Institute for Meteorology and Geodynamics, Austria
- Chapman University, California
- Christian Albrechts University of Kiel, Germany
- Dartmouth College, New Hampshire
- E.O. Hulburt Center for Space Research, NRL
- Ecole Polytechnique, LPP, Laboratoire de Physique des Plasmas
- European Space Research and Technology Centre
- GMU, School of Physics, Astronomy and Computational Sciences
- Georg August University of Gottingen, Germany
- George Mason University, Virginia
- Goddard Space Flight Center, Astrophysics Division
- Imperial College, Department of Physics
- Imperial College, London
- Indian Institute of Astrophysics, Bangalore
- Infrared Processing and Analysis Center
- Institut d'Astrophysique Spatiale
- Institute for Astronomy, Astrophysics, Space Applications and Remote Sensing
- JAXA Japan Aerospace Exploration Agency
- Jet Propulsion Laboratory
- Johns Hopkins University, Applied Physics Laboratory
- KF University of Graz, Institute of Geophysics, Astrophysics and Meteorology
- KF University of Graz, Institute of Physics
- KTH, Royal Institute of Technology, Sweden
- Karl Franzens University of Graz, Austria
- Katholieke University of Leuven, Astronomical Institute
- Katholieke University of Leuven, Belgium
- Kirtland Air Force Research Laboratory, New Mexico
- Korea Astronomy and Space Science Institute
- Leopald Franzens University of Innsbruck, Austria
- MSU, Institute of Nuclear Physics
- Max-Planck-Institute for Solar System Research, Lindau
- Meteorological Office, UK
- Montana State University, Bozeman
- Moscow State University, Russia
- NASA Goddard Space Flight Center, Maryland
- National Center for Atmospheric Research, High Altitude Observatory
- New Jersey Institute of Technology
- Peking University, China
- Predictive Science Inc., California
- RAL, Space Science and Technology Department
- Romanian Academy of Sciences
- Royal Observatory of Belgium
- Royal Observatory of Belgium, Department of Solar Physics
- Russian Academy of Sciences, Siberian Branch
- Rutherford Appleton Laboratory
- Science and Technology Facilities Council, UK
- Shandong University at Weihai, China
- Skolkovo Institute of Science and Technology, Russia
- Southwest Research Institute, Boulder
- Southwest Research Institute, Texas
- Swedish Institute of Space Physics, Kiruna
- Technical University of Braunschweig, Germany
- Technical University of Graz, Austria
- Tufts University, Massachusetts
- U.S. Department of the Navy, Naval Research Laboratory, Washington DC
- UNAM, Institute of Geophysics
- University of Alabama, Huntsville, Department of Physics
- University of Alcala, Spain
- University of California, Berkeley
- University of California, Berkeley, Space Sciences Laboratory
- University of California, Los Angeles
- University of California, Los Angeles, Institute of Geophysics and Planetary Physics
- University of California, Riverside, Department of Earth Sciences
- University of Chicago, Department of Astronomy and Astrophysics
- University of Colorado, Boulder
- University of Colorado, Boulder, Laboratory for Atmospheric and Space Physics
- University of Dublin Trinity College, Ireland
- University of Hawaii, Manoa, Institute for Astronomy
- University of Helsinki, Department of Physics
- University of Helsinki, Finland
- University of Innsbruck, Institute of Astrophysics
- University of Iowa
- University of Iowa, Department of Physics and Astronomy
- University of Kiel, Institute for Experimental and Applied Physics
- University of Leicester, UK
- University of Maryland, Baltimore County
- 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 North Dakota
- University of Oulu, Finland
- University of Reading, UK
- University of Rochester, New York
- University of Science and Technology of China, Hefei
- University of Southampton, UK
- University of Zagreb, Hvar Observatory
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