High-velocity protons stream copiously from the surface of the Sun. Harnessing their momentum for interplanetary travel is the goal of a novel propulsion system known as E-sail. Invented in 2004 by Pekka Janhunen of the Finnish Meteorological Institute, E-sail consists of long electrically conducting tethers that fan out from the spacecraft like the spokes of a bicycle wheel. Each tether consists of a web of interlaced wires, whose holes allow micrometeorites to pass through and whose electric field penetrates up to 100 m into the surrounding plasma. When protons encounter the positively charged tethers, they’re deflected, and that generates thrust. Although the E-sail converts momentum efficiently, propelling a modestly sized spacecraft requires the tethers to be very long. To meet that criterion without overburdening the spacecraft with inertia, the wires must be very thin. In a new paper, a team led by the University of Helsinki’s Henri Seppänen reports the...
Skip Nav Destination
Article navigation
1 November 2013
November 01 2013
Making multifilament wires for electric solar wind sails
Physics Today 66 (11), 18 (2013);
Citation
Charles Day; Making multifilament wires for electric solar wind sails. Physics Today 1 November 2013; 66 (11): 18. https://doi.org/10.1063/PT.3.2172
Download citation file:
Sign in
Don't already have an account? Register
Sign In
You could not be signed in. Please check your credentials and make sure you have an active account and try again.
PERSONAL SUBSCRIPTION
Purchase an annual subscription for $25. A subscription grants you access to all of Physics Today's current and backfile content.
29
Views
Citing articles via
Corals face historic bleaching
Alex Lopatka
Grete Hermann’s ethical philosophy of physics
Andrea Reichenberger
Focus on lasers, imaging, microscopy, and photonics
Andreas Mandelis