HelioWebStanford University, Department of Aeronautics and Astronautics
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I[Stanford University, Department of Aeronautics and Astronautics]
PI["Parent Institutions (1)"]
CI["Child Institutions (0)"]
AW["Affiliated Works (38)"]
CA["Linked Collaborating Authors (0)"]
I== skos:broader ==>PI
CI== skos:broader ==>I
AW== affil ==>I
AW== author ==>CA
click PI "#parent-institutions"
click CI "#child-institutions"
click AW "#affiliated-works"
click CA "#collaborating-authors"
Parent Institutions [?]
Child Institutions [?]
Affiliated Works
sorted by decreasing year, and then by display-name
- Anomalous Nighttime Plasma Structure in the Recovery Phase of a Superstorm
- Endurance: The rewards and challenges of landing a spacecraft on Europa
- Mission Design Concept for in Situ Characterization of Saturnian Atmospheric Composition
- Modeling Persistent Contrails in a Large Eddy Simulation and a Global Climate Model
- Quantifying the Effects of Aircraft on Climate With a Model That Treats the Subgrid Evolution of Contrails From All Commercial Flights Worldwide
- Disaggregating global commercial aviation emissions by background static-stability in the upper-troposphere and lower-stratosphere
- Initial Analysis of the Solar Dynamics Observatory Radiation Environment
- Characterizing Free Plasma Expansion due to Hypervelocity Dust Impacts
- Comparing the Chemical Effects of Treating Aviation Gas Emissions in an Expanding Plume Versus at the Grid Scale
- Electromagnetic Pulses Generated by Hypervelocity Impacts
- Methods for the investigation of impact ionisation plasma
- Composition of Plasma Formed from Hypervelocity Dust Impacts
- Optimizing Decadal and Precursor Science on Small Solar System Bodies with Spacecraft/Rover Hybrids
- The Photochemical Effects of Treating Aircraft Emissions from Multiple Flights at the Subgrid Scale
- The Search for VLF Precursors to Major Earthquakes: A Case Study with the M9.0 Earthquake of 11-Mar-2011 (Invited)
- Very-Low-Frequency Subionospheric Remote Sensing of Thunderstorm-driven Acoustic and Gravity Waves in the D-region
- Core to Atmosphere Exploration of Ice Giants: A Uranus Mission Concept Study
- Repeated 1-cm Resolution Topographic and 2.5-mm Resolution Photomosiac Surveys of Benthic Communities and Fine Scale Bedforms in Monterey Canyon
- Meteoroid Impact Ejecta Detection by Nanosatellites for Asteroid Surface Characterization
- Meteoroid Impact Detection for Exploration of Asteroids (MIDEA): Meteoroid Impact Rates on Potential Asteroid Targets
- A Mission to Achieve Ultrahigh-Resolution Imaging of the Solar Corona
- Formation of Dense Plasma around a Small Meteoroid in the Earth's Atmosphere: Analytic Theory and Simulations
- An improved method of determining meteor plasma density from head echo data: A critical step toward determining meteoroid masses
- Characterization of Optical Emission from Ground-Based Hypervelocity Impact Experiments
- Characterization of the Plasma Plume Produced by Dust and Meteoroid Impact of Different Materials
- Dusty plasma effects in hypervelocity impacts on the ground and in space
- Electric Field Polarization of Electromagnetic Radiation from Micrometeoroid and Dust Impacts on Spacecraft
- Liquid-vapor coexistence and critical point of Mg<SUB>2</SUB>SiO<SUB>4</SUB> from ab-initio simulations
- Miniature Distributed Occulter Telescope (mDOT): A Concept for a Smallsat Mission to Observe Extrasolar Zodiacal Dust and Exoplanets
- Neutral density measurement from simultaneous radar observation of meteors
- Some Space Rocks Visit Us from Far-Away Space
- Space- and Ground-based Measurements of Radiation Belt Precipitation: Extending the Capabilities of CubeSats and Radars
- Using Deep Learning to Automate Inference of Meteoroid Pre-Entry Properties
- A Mission Concept for a Solar Observatory in a Highly-Inclined Heliocentric Orbit - Demystifying the Magnetic Nature and Activity of our Star
- Automating the Inference of Asteroid Physical Properties and Motion
- Ejecta charging and dynamics in meteoroid impacts on asteroids and comets
- Estimating neutral density of the thermosphere from meteor trajectories
- The Space Weather Atmospheric Reconfigurable Multiscale Experiment (SWARM-EX): A New NSF Supported CubeSat Project