C. J. Henney

    flowchart
    A[C. J. Henney]
    AC["Associated Concepts (17)"]
    AW["Authored Works (65)"]
    CA["Linked Co-Authors (24)"]
    CI["Linked Collaborating Institutions (44)"]
    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/0000-0002-6038-6369

OpenAlex ID

https://openalex.org/A5040053091 (API record)

Associated Concepts [?]

• Physics
• Quantum mechanics
• Geography
• Geology
• Astronomy
• Magnetic field
• Computer science
• Meteorology
• Nuclear physics
• Plasma
• Astrophysics
• Solar wind
• Biology
• Environmental science
• Mathematics
• Coronal mass ejection
• Engineering

Authored Works

sorted by decreasing year, and then by display-name

• Space Weather Predictions with a New Generation of Data-driven Models of the Solar Atmosphere and Inner Heliosphere: Improving Efficiency and Ensuring Uncertainty Quantification
• Open-Source High-Performance Flux Transport
• Integrating SolO/PHI magnetograms into global solar magnetic maps
• The impact of polar magnetic field uncertainty on solar wind prediction
• Predicting the Background Solar Wind for Solar Maximum Conditions with the Alfven Wave Solar atmosphere model (AWSoM)
• Open-Source High-Performance Flux Transport
• Forecasting the ambient solar wind from coronal magnetic models using Gradient Boosting Regression
• Coronal and Heliospheric Modeling with WSA: Recent Updates and Applications
• Combining the Derived Solar Wind Outflow Velocity in the Inner Corona with the Modelled Magnetic Field
• Improving Multiday Solar Wind Forecasts
• Evaluating Model Advancements for Predicting CME Arrival Time - CCMC/NOAA SWPC Partnership Final Report
• Comparisons between current sheet location and three-spacecraft white-light tomography results
• An Adaptive Prediction System for Specifying Solar Wind Conditions Near the Sun
• Validating the Alfven Wave Solar Atmosphere (AWSoM) Model from the Low Corona to 1 AU
• Modeling Solar Wind Connectivity from Origin to Detection
• Modeling PSP Solar Encounters Using ADAPT-WSA
• Investigating How Ambient Solar Wind Conditions Influence Local Observations of SEPs
• Improving boundary B<SUB>r</SUB> maps for global coronal magnetic field models
• Improving Forecast Lead Times for the Solar Wind, IMF, and Kp Index
• Impact on WSA coronal and solar wind predictions when optimizing its data drivers and model parameters
• First satellite in-situ observations of the storm enhanced density (SED) and polar plasma clouds associated with the polar tongue of ionization (TOI) detected during the 20 November 2003 magnetic storm
• Data Assimilative Optimization of WSA Source Surface and Interface Radii using Particle Filtering
• Coronal Magnetic Field Model Selection Using Images of the Middle Corona and Solar Wind Measurements
• Comparing the Parker Spiral Approximation with ADAPT-WSA Modeling to Determine Magnetic Connectivity of Solar Flare Electron Sources to STEREO Spacecraft
• Using Coronagraph Images to Evaluate the ADAPT Flux Transport Model
• Using ADAPT-WSA Modeling to Test STEREO Connections to Solar Flare Electron Sources
• The Air Force Research Laboratory and Space Weather R2O
• Revealing Solar Sources and Dynamic Evolution Properties of the Solar Wind: Applications to Upcoming Missions
• Global Solar Magnetic Maps using Reverse Active Region Modeling
• Comparing WSA coronal and solar wind model predictions driven by ADAPT reverse active region maps
• The Slowly Varying Corona: Findings from DEMs with the EVE MEGS-A Dataset
• The Slowly Varying Corona: Findings from DEMs with the EVE MEGS-A Dataset
• Comparing WSA coronal and solar wind model predictions driven by line-of-sight and vector HMI ADAPT maps
• A new data assimilation engine for physics-based thermospheric density models
• Forecasting Space Weather Solar Indices
• Data-Driven Models of the Solar Corona and Solar Wind
• Correcting F<SUB>10.7</SUB> for use in Ionospheric Models
• Blending of Ground- and Space-Based Magnetograms: Application to L1-L5 Solar Wind and Coronal Hole Predictions
• A Comparison of Parker Spiral and WSA Footpoint Longitudes for Solar Energetic Particle Events.
• Space Weather Forecasts Driven by the ADAPT Model
• ADAPT/HMI Global Solar Magnetic Maps
• Methods for estimating total open heliospheric magnetic flux
• Forecasting the Solar Photosphere's Magnetic Flux with Local Data Assimilation
• Forecasting Solar UV &amp; F10.7 with ADAPT
• Estimating the Global Solar Magnetic Field Distribution Using ADAPT
• Ensemble modeling of CME propagation
• Coronal Modeling with Flux-Evolved Maps: Comparison with Observations
• The Sources of F10.7 Emission
• Solar Active Region Morphologies Selected From Near-Side Helioseismic Data
• Modeling the corona and solar wind using ADAPT maps with data assimilated helioseismic detected active regions (Invited)
• Global Solar Photospheric Magnetic Field Modeling (Invited)
• Ensemble Modeling of the July 23, 2012 CME Event
• Driving Coronal MHD Simulations with Flux Evolution Models
• Current NOAA Activities and Plans for Space Weather Modeling - Where Improvements are Needed (Invited)
• Approach to Integrate Global-Sun Models of Magnetic Flux Emergence and Transport for Space Weather Studies
• Using ensemble modeling to understand successive halo CMEs: A case study using events from 2-4 August 2011
• Statistical Analysis of Solar Wind Parameters Relevant to Space Weather Predictions
• Solar Magnetic Flux Transport Modeling with Far-side Data
• WSA Derived Coronal Hole Comparison with STEREO EUVI Observations
• Ensemble Solar Global Magnetic Field Modeling
• New Global Solar Magnetic Field Maps Using the ADAPT Data Assimilation and Flux Transport Model
• The Magnetic Structure of X-Ray Bright Points
• SOLIS: status, data products &amp; science
• First Results from SOLIS
• DASL--Data and Activities for Solar Learning

Linked Co-Authors

• Alexei A. Pevtsov
• Andreas J. Weiss
• Christian Möstl
• Christoph U. Keller
• Cooper Downs
• Dinesha Vasanta Hegde
• Gábor Tóth
• James Turtle
• Lisa Upton
• M. J. Owens
• Marc L. DeRosa
• Martin A. Reiss
• N. V. Pogorelov
• P. H. Scherrer
• Raphaël Attié
• Roger C. Bailey
• Ronald M. Caplan
• S. I. Jones
• Samuel J. Schonfeld
• T. I. Gombosi
• T. K. Kim
• Ute Amerstorfer
• V. Martínez Pillet
• А. Бемпорад

Linked Collaborating Institutions

• Atmospheric & Space Technology Research Associates (ASTRA)
• Atmospheric and Environmental Research Inc.
• Austrian Academy of Sciences
• Austrian Institute of Space Science Research
• Boston College, Institute for Scientific Research
• Catholic University, Washington DC
• Central Institute for Meteorology and Geodynamics, Austria
• Embry Riddle Aeronautical University, Florida
• Friedrich Alexander University of Erlangen-Nuremberg, Germany
• George Mason University, Virginia
• Goddard Space Flight Center, Astrophysics Division
• KF University of Graz, Institute of Physics
• Kirtland Air Force Research Laboratory, New Mexico
• Lawrence Berkeley National Laboratory, California
• Lockheed Martin, Palo Alto
• Los Alamos National Laboratory, New Mexico
• Michigan State University
• NASA Ames Research Center
• NASA Goddard Space Flight Center, Maryland
• Nagoya University, Japan
• National Center for Atmospheric Research, Colorado
• National Oceanic and Atmospheric Administration, Boulder
• National Solar Observatory, Sunspot New Mexico
• New Mexico State University
• New Mexico State University, Department of Astronomy
• NorthWest Research Associates, Boulder
• Predictive Science Inc., California
• Princeton University, Department of Astrophysical Sciences
• Smithsonian Astrophysical Observatory
• Southwest Research Institute, Boulder
• Southwest Research Institute, Texas
• Stanford University, California
• University of Alabama, Huntsville
• University of Buenos Aires, Argentina
• University of California, Berkeley, Space Sciences Laboratory
• University of California, San Diego, Center for Astrophysics and Space Science
• University of Colorado, Boulder
• University of Michigan
• University of Michigan, Department of Atmospheric Oceanic and Space Sciences
• University of New Mexico
• University of New Mexico, Department of Physics and Astronomy
• University of Reading, UK
• University of Virginia
• West Virginia University

Add Incoming Edge

Login via ORCiD to contribute.

Add Outgoing Edge

Login via ORCiD to contribute.