Special Earth-Mars transfers that exploit both chemical and solar electric propulsion are investigated in this work. A dedicated launch strategy via Soyuz is considered. Firstly, a high-thrust, low-Isp impulse is used to place the spacecraft onto an Earth-escape trajectory, possibly performing a lunar swingby. Then, an heliocentric rendezvous with Mars is achieved via low-thrust, high-Isp propulsion, followed by a ballistic capture leading to a final, low-altitude orbit around Mars. Hybrid propulsion transfers outperform chemical transfers (Hohmann) in terms of propellant consumption. Furthermore, a few considerations at system level are also proposed
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...
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 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...
This work analyzes special Earth-Moon transfers that make use of both chemical and solar electric pr...
This paper introduces a hybrid propulsion transfer termed a Hohmann Spiral, incorporating low and hi...
Knowledge and investigation about low-thrust propulsion systems have been increasing during the last...
Highly propellant-efficient electric propulsion is being combined with advanced solar power technolo...
Advanced solar electric power systems and electric propulsion technology constitute viable elements ...
The safe, affordable and effective transfer of ever-larger payloads and eventually personnel beyond ...
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...
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 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...
This work analyzes special Earth-Moon transfers that make use of both chemical and solar electric pr...
This paper introduces a hybrid propulsion transfer termed a Hohmann Spiral, incorporating low and hi...
Knowledge and investigation about low-thrust propulsion systems have been increasing during the last...
Highly propellant-efficient electric propulsion is being combined with advanced solar power technolo...
Advanced solar electric power systems and electric propulsion technology constitute viable elements ...
The safe, affordable and effective transfer of ever-larger payloads and eventually personnel beyond ...
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...
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