Return to Venus of the Japanese Venus Climate Orbiter AKATSUKI
Return to Venus of the Japanese Venus Climate Orbiter AKATSUKI
Instrumental requirements for the study of Venus’ cloud top using the UV imaging spectrometer VeSUV
Proximal exploration of Venus volcanism with teams of autonomous buoyancy-controlled balloons
Micro-spacecraft in Sun-Venus Lagrange point orbit for the Venera-D mission
Electromagnetic waves observed by Venus Express at periapsis: Detection and analysis techniques
On the distribution and variability of water vapour in the middle atmosphere of Venus
Long duration flights in Venus’ atmosphere using passive solar hot air balloons
Venus Express : welcome to the cryptic planet
European Venus Explorer: An in-situ mission to Venus using a balloon platform
Current status of the PLANET-C Venus orbiter design
Prototype design and testing of a Venus long duration, high altitude balloon
Second generation prototype design and testing for a high altitude Venus balloon
On the venus bow shock compressibility
Hybrid modelling the Pioneer Venus Orbiter magnetic field observations
Venus balloons using water vapor
Technology development for a long duration, mid-cloud level Venus balloon
Venus high temperature atmospheric dropsonde and extreme-environment seismometer (HADES)
Plasma erosion in the Venus nightside ionosphere
Venus/Mars pickup ions and ionosheath wave structures
Analysis of NASA’s DSN Venus Express radio occultation data for year 2014
Power minimization of fixed-wing drones for Venus exploration in various altitudes
Ionic loss from Venus upper ionosphere via plasma wake
Development of a new cloud model for Venus (MAD-VenLA) using the Modal Aerosol Dynamics approach
Venus Atmosphere Experimental Simulation Performance of the Glenn Extreme Environment Rig
Friction layer along the sides of the plasma channels in the Venus nightside ionosphere
Venus Atmosphere Experimental Simulation Performance of the Glenn Extreme Environment Rig
Magnetic field configuration in the Venus ionosphere
The ionospheres of Venus and Mars