Add to ORKGA Japanese led international team is developing a suborbital test of orbital-motion-limited (OML) bare wire anode current collection for application to electrodynamic tether (EDT) propulsion. The tether is a tape with a width of 25 mm, thickness of 0.05 mm, and is 300 m in length. This will be the first space test of OML theory. The mission will launch in the summer of 2009 using an S520 Sounding Rocket. During ascent, and above approx. 100 km in attitude, the tape tether will be deployed at a rate of approx. 8 m/s. Once deployed, the tape tether will serve as an anode, collecting ionospheric electrons. The electrons will be expelled into space by a hollow cathode device, thereby completing the circuit and allowing current to flow. The tota...
Abstract. Electrodynamic tether thrusters can use the power provided by solar panels to drive a cur...
A Space tether is a thin, multi-kilometers long conductive wire, joining a satellite and some opposi...
Relatively short electrodynamic tethers can use solar power to "push" against a planetary magnetic f...
A Japanese-led international team is developing a suborbital test of orbital-motion-limited (OML) ba...
An international team, lead by Tokyo Metropolitan University, is developing a mission concept for a ...
A mission on board a sounding rocket to carry out two bare-tether experiments is proposed: a test o...
The project to verify the performance of space tether technology was successfully demonstrated by th...
A mission on board a sounding rocket to carry out two bare-tether experiments is proposed: a test o...
A spaceflight validation of bare electro dynamic tape tether technology was conducted. A S520-25 sou...
A 3-year Project started on November 1 2010, financed by the European Commision within the FP-7 Spac...
A spaceflight validation of bare electro dynamic tape tether technology was conducted. A S520-25 sou...
An overview of a sounding rocket, S-520-25th, project on space tether technology experiment is prese...
Relatively short electrodynamic tethers can extract orbital energy to 'push' against a planetary mag...
Abstract. Electrodynamic tether thrusters can use the power provided by solar panels to drive a cur...
Electrodynamic tethers hold promise for a variety of space applications. Electrodynamic tethers depe...
Abstract. Electrodynamic tether thrusters can use the power provided by solar panels to drive a cur...
A Space tether is a thin, multi-kilometers long conductive wire, joining a satellite and some opposi...
Relatively short electrodynamic tethers can use solar power to "push" against a planetary magnetic f...
A Japanese-led international team is developing a suborbital test of orbital-motion-limited (OML) ba...
An international team, lead by Tokyo Metropolitan University, is developing a mission concept for a ...
A mission on board a sounding rocket to carry out two bare-tether experiments is proposed: a test o...
The project to verify the performance of space tether technology was successfully demonstrated by th...
A mission on board a sounding rocket to carry out two bare-tether experiments is proposed: a test o...
A spaceflight validation of bare electro dynamic tape tether technology was conducted. A S520-25 sou...
A 3-year Project started on November 1 2010, financed by the European Commision within the FP-7 Spac...
A spaceflight validation of bare electro dynamic tape tether technology was conducted. A S520-25 sou...
An overview of a sounding rocket, S-520-25th, project on space tether technology experiment is prese...
Relatively short electrodynamic tethers can extract orbital energy to 'push' against a planetary mag...
Abstract. Electrodynamic tether thrusters can use the power provided by solar panels to drive a cur...
Electrodynamic tethers hold promise for a variety of space applications. Electrodynamic tethers depe...
Abstract. Electrodynamic tether thrusters can use the power provided by solar panels to drive a cur...
A Space tether is a thin, multi-kilometers long conductive wire, joining a satellite and some opposi...
Relatively short electrodynamic tethers can use solar power to "push" against a planetary magnetic f...