Add to ORKGThis work analyzes special Earth-Moon transfers that make use of both chemical and solar electric propulsion. A first high-thrust, low-Isp impulse is used to place the spacecraft into an exterior-like low-energy transfer to the Moon, possibly performing a lunar gravity assist. The subsequent use of low-thrust, high-Isp propulsion makes it possible to perform a lunar ballistic capture leading to a final, low-altitude orbit about the Moon. Hybrid propulsion transfers outperform both the chemical transfers (Hohmann, interior, and exterior) and the fully solar electric propulsion transfers (e.g., SMART-1-like) in terms of propellant consumption, although an assessment of these transfers at system level is still missing
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
This work analyzes special Earth-Moon transfers that make use of both chemical and solar electric pr...
This work analyzes special Earth-Moon transfers that make use of both chemical and solar electric pr...
This work analyzes special Earth–Moon transfers that make use of both chemical and solar electric pr...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
This paper examines the design of transfers that are useful to micro or nano spacecraft with high ar...
Using electric propulsion to deliver materials to lunar orbit for the development and construction o...
This paper presents an optimization procedure to generate fast and low-∆v Earth-Moon transfer trajec...
This paper introduces a hybrid propulsion transfer termed a Hohmann Spiral, incorporating low and hi...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
This work analyzes special Earth-Moon transfers that make use of both chemical and solar electric pr...
This work analyzes special Earth-Moon transfers that make use of both chemical and solar electric pr...
This work analyzes special Earth–Moon transfers that make use of both chemical and solar electric pr...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigat...
This paper examines the design of transfers that are useful to micro or nano spacecraft with high ar...
Using electric propulsion to deliver materials to lunar orbit for the development and construction o...
This paper presents an optimization procedure to generate fast and low-∆v Earth-Moon transfer trajec...
This paper introduces a hybrid propulsion transfer termed a Hohmann Spiral, incorporating low and hi...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...
The classic strategy to place a satellite in the geostationary orbit (GEO) relies on chemical propul...