Add to ORKGThis paper will briefly identify a promising fusion plasma power source, which when coupled with a promising electric thruster technology would provide for an efficient interplanetary transfer craft suitable to a 4 year round trip mission to the Jovian system. An advanced, nearly radiation free Inertial Electrostatic Confinement scheme for containing fusion plasma was judged as offering potential for delivering the performance and operational benefits needed for such high energy human expedition missions, without requiring heavy superconducting magnets for containment of the fusion plasma. Once the Jovian transfer stage has matched the heliocentric velocity of Jupiter, the energy requirements for excursions to its outer satellites (Callisto...
There are a number of pressing problems mankind is facing today that could, at least in part, be res...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
The paper concerns an innovative propulsive/power system exploiting the magnetic field and the charg...
Inertialelectrostaticfusion IEF devices using polyhe dral magnetic fields for electrostatic potenti...
A new concept for an interplanetary and interstellar missions is discussed, which is based on a comp...
A novel fusion scheme that combines the favorable aspects of both inertial and magnetic confinement ...
Extremely advanced space propulsion systems can be based on use of inertial electrostatic fusion IEF...
Jupiter is a Sandia initiative to develop the next generation of fast Z-pinch drivers for applicatio...
An ED-tether mission to Jupiter is presented. A bare tether carrying cathodic devices at both ends b...
In this paper, we indicate how the great advantages that ICF offers for interplanetary propulsion ca...
Under DLR-contract, Giessen University and DLR Cologne are studying solar-electric propulsion missio...
textThe use of electrodynamic tethers for propulsion and power generation is attractive for missions...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
There are a number of pressing problems mankind is facing today that could, at least in part, be res...
There are a number of pressing problems mankind is facing today that could, at least in part, be res...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
The paper concerns an innovative propulsive/power system exploiting the magnetic field and the charg...
Inertialelectrostaticfusion IEF devices using polyhe dral magnetic fields for electrostatic potenti...
A new concept for an interplanetary and interstellar missions is discussed, which is based on a comp...
A novel fusion scheme that combines the favorable aspects of both inertial and magnetic confinement ...
Extremely advanced space propulsion systems can be based on use of inertial electrostatic fusion IEF...
Jupiter is a Sandia initiative to develop the next generation of fast Z-pinch drivers for applicatio...
An ED-tether mission to Jupiter is presented. A bare tether carrying cathodic devices at both ends b...
In this paper, we indicate how the great advantages that ICF offers for interplanetary propulsion ca...
Under DLR-contract, Giessen University and DLR Cologne are studying solar-electric propulsion missio...
textThe use of electrodynamic tethers for propulsion and power generation is attractive for missions...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
There are a number of pressing problems mankind is facing today that could, at least in part, be res...
There are a number of pressing problems mankind is facing today that could, at least in part, be res...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...