HelioWebGiovanni Lapenta
flowchart
A[Giovanni Lapenta]
AC["Associated Concepts (22)"]
AW["Authored Works (16)"]
CA["Linked Co-Authors (24)"]
CI["Linked Collaborating Institutions (23)"]
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"
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- ORCiD
- https://orcid.org/0000-0002-3123-4024
- OpenAlex ID
- https://openalex.org/A5065740298 (API record)
Associated Concepts [?]
- Physics
- Quantum mechanics
- Nuclear physics
- Plasma
- Magnetic field
- Geology
- Mechanics
- Computer science
- Electron
- Mathematics
- Classical mechanics
- Engineering
- Magnetic reconnection
- Thermodynamics
- Geography
- Chemistry
- Computational physics
- Biology
- Organic chemistry
- Oceanography
- Meteorology
- Magnetohydrodynamics
Authored Works
sorted by decreasing year, and then by display-name
- Study of Ion Injection into the Inner Magnetosphere Using an Implicit Particle in Cell Simulation Driven by a Global MHD simulation
- Investigation of kinetic processes at the electron scale in global magnetospheric simulations: the cases of Earth and Mercury
- Dissipation and Energy Transfer at Electron Scale in Turbulent Current Layers Formed in the Outflows of Reconnection
- Contextualizing Instabilities from a Global PIC Model of Planetary Magnetospheres to Local Electron Kinetic Scales
- Characteristics of Multi-Scale Current Sheets in the Solar Wind at 1 AU Associated with Magnetic Reconnection and the Case for a Cascading Heliospheric Current Sheet
- Atmospheric Erosion for the Terrestrial Planets: A Semi-Empirical Model
- Predicted Reconnection Signatures Observed With MMS
- Physics-informed dimensionality reduction of direct numerical simulations of stratified turbulent flows using convolutional autoencoders
- Particle Injection into the Inner Magnetosphere and the Creation of the Partial Ring Current
- Parametrization of Heliophysical Data Using Autoencoders
- Making ML applications more accessible to the space community: Progress overview of the AIDA Horizon 2020 project
- Magnetospheric Multiscale observations of energy transport and conversion by magnetic reconnection
- Impact of Solar Wind Discontinuities on the Magnetopause: Kinetic Modeling
- Identification of High Order Closure Terms from Fully Kinetic Reconnection Simulations using Machine Learning
- Fully kinetic simulations of plasma turbulence in the inner heliosphere: a pathfinder for electron-scale spacecraft missions
- Electron and Ion Populations in the Magnetopause Boundary Layers: Results from Kinetic Simulations
Linked Co-Authors
- C. T. Russell
- D. E. Wendel
- D. J. Gershman
- David Burgess
- Emanuele Papini
- Enrico Camporeale
- Fabio Feraco
- H. Gunell
- J. Berchem
- J. E. Stawarz
- J. L. Burch
- J. M. Weygand
- J. P. Eastwood
- Jorge Amaya
- Luca Franci
- M. El‐Alaoui
- M. Swisdak
- R. B. Torbert
- Raffaello Foldes
- Raymond J. Walker
- Romain Maggiolo
- S. Eriksson
- Sara Jamal
- Simon Wing
Linked Collaborating Institutions
- Academy of Sciences of the Czech Republic, Astronomical Institute
- Belgian Institute for Space Aeronomy
- Catholic University, Washington DC
- Centre National de la Recherche Scientifique, France
- Ecole Centrale de Lyon, France
- European Space Research and Technology Centre
- Imperial College, London
- Johns Hopkins University, Applied Physics Laboratory
- Katholieke University of Leuven, Belgium
- NASA Goddard Space Flight Center, Maryland
- Queen Mary University, UK
- Royal Observatory of Belgium
- Southwest Research Institute, Texas
- Umea University, Sweden
- University of California, Berkeley
- University of California, Los Angeles
- University of Colorado, Boulder
- University of Colorado, Boulder, Laboratory for Atmospheric and Space Physics
- University of Connecticut
- University of Florence, Italy
- University of L'Aquila, Italy
- University of Maryland, College Park
- University of New Hampshire
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