Related articles

Related Articles

2024:

• Variability of Earth’s ionospheric outflow in response to the dynamic terrestrial exosphere. 
• A feasibility study of 4-D tomography of soft X-ray magnetosheath emissivities using multi-spacecraft measurements.
• Finding the magnetopause location using soft X-ray observations and a statistical inverse method.
• Target and science visibility of the solar-terrestrial observer for the response of the magnetosphere (STORM) global imaging mission concept.

2023:

• Quantifying the global solar wind-magnetosphere interaction with the Solar-Terrestrial Observer for the Response of the Magnetosphere (STORM) mission concept
• New Approach for 4-D Exospheric Tomography Based on Optimal Interpolation and Gaussian Markov Random Field
• EXOSpy: A Python Package to Investigate the Terrestrial Exosphere and its FUV Emission
• Imaging the end-to-end dynamics of the global solar wind-magnetosphere interaction.

2021:

• Neutral Densities in the Outer Exosphere Near the Subsolar Magnetopause
• Large-Scale Structure and Dynamics of the Magnetosphere

2018:

• Imaging Plasma Density Structures in the Soft X-Rays Generated by Solar Wind Charge Exchange with Neutrals
• Magnetopause Surface Reconstruction From Tangent Vector Observations

2016:

• Density variations in the Earth’s magnetospheric cusps.
• Wide field-of-view soft X-ray imaging for solar wind-magnetosphere interactions.

2015:

• The Solar Wind Charge-Exchange Production Factor for Hydrogen.
• First Flight in Space of a Wide-Field-of-View Soft X-ray Imager Using Lobster-Eye Optics: Instrument Description and Initial Flight Results.

2014:

• On lunar exospheric access beyond the terminator from ROSAT soft X-ray observations of solar wind charge exchange.
• The origin of the local 1/4-keV X-ray flux in both charge exchange and a hot bubble.
• Observation and modeling of geocoronal charge exchange X-ray emission during solar wind gusts.

2013:

• The DXL and STORM sounding rocket mission.

2012:

• Prototyping a global soft X-ray imaging instrument for heliophysics, planetary science, and astrophysics science.

2011:

• Astrophysical noise: a Space Weather signal.

2010:

• A high charge state coronal mass ejection seen through solar wind charge exchange emission as detected by XMM–Newton.
• Identifying XMM-Newton observations affected by solar wind charge exchange – Part II

2008:

• The lunar X-ray observatory (LXO).
• The Lunary X-ray Observatory (LXO) / Magnetosheeth Explorer In X-rays (MAGEX).
• Identifying XMM-Newton observations affected by solar wind charge exchange. Part I

2007:

• The EPIC-MOS particle-induced background spectra.

2006:

• X-ray emission from the terrestrial magnetosheath including the cusps.

2005:

• Can X-rays provide longer advanced warning of solar wind flux enhancements than upstream monitors?

2004:

XMM-Newton observations of solar wind charge exchange emissions.