Add to ORKGA conventional Mercury sample return mission requires significant launch mass due to the large deltav required for the outbound and return trips, and the large mass of a planetary lander and ascent vehicle. Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, thermally safe orbit close to the terminator. Propellant mass is not an issue for solar sails so a sample can be returned relatively easily, without resorting to lengthy, multiple gravity assists. The initial Mercury sample return studies reported here were conducted under ESA contract ESTEC/16534/02/NL/NR, PI Colin McInnes, Technical Officer Peter Falkner. Updated solar sail capabilities were developed under the Ground System Demonstration prog...
Mercury is an ideal environment for future planetary exploration by solar sail since it has proved d...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, therma...
Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, therma...
Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, therma...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
Mercury is an ideal environment for future planetary exploration by solar sail since it has proved d...
Mercury is an ideal environment for future planetary exploration by solar sail since it has proved d...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
A conventional Mercury sample return mission requires significant launch mass due to the large AV re...
Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, therma...
Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, therma...
Solar sailing can be used to reduce lander mass allocation by delivering the lander to a low, therma...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
Mercury is an ideal environment for future planetary exploration by solar sail since it has proved d...
Mercury is an ideal environment for future planetary exploration by solar sail since it has proved d...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...
The use of solar sail propulsion is investigated for both Mercury orbiter (MO) and Mercury sample re...