Add to ORKGThe flight results obtained from mid 1979 through December 1980 are presented. Near continuous solar power in 1979 and 1980 has enabled long periods of thruster endurance testing. Three of four propellant tanks were exhausted with no significant change in thruster system operation before being empty. A new plasma mode thrust was characterized and direct thrust measurements obtained. Other tests, including beam neutralization by various neutralizer sources, give insight to electron conduction across plasmas in space and provide a basis to model neutralization of thruster arrays
The SERT C (Space Electric Rocket Test - C) project study defines a spacecraft mission that would de...
Several thrust system design concepts were evaluated and compared using the specifications of the mo...
Future missions, both station keeping and primary electric propulsion, will require multiple thrust ...
The results of testing the flight thrusters on the SERT spacecraft during the 1974 test period are p...
The historical record of the SERT II ion thrusters and spacecraft performance for 6 1/2 years since ...
Steady state tests of the thruster 2 system on the SERT 2 spacecraft are presented. A direct thrust ...
The SERT 2 satellite, launched in February, 1970, has recently been reactivated after being dormant ...
The mechanical design of the mercury bombardment thruster that was tested on SERT is described. The ...
The SERT D (Space Electric Rocket Test - D) study defines a possible spacecraft project that would d...
Results of the SERT II flight indicate that the hollow cathode neutralizer not only represents a pow...
Description and operation of spacecraft in space electric rocket test /sert/ thrustor flight tes
Some space flight missions require advanced ion thrusters which operate at conditions much different...
The SERT I (Space Electric Rocket Test) spacecraft was launched at 0553:15 EDT on July 20, 1964, fro...
An analysis of the major plasma processes involved in the SERT 2 spacecraft experiments was conducte...
A planned flight test of an 8 cm diameter, electron-bombardment mercury ion thruster system is descr...
The SERT C (Space Electric Rocket Test - C) project study defines a spacecraft mission that would de...
Several thrust system design concepts were evaluated and compared using the specifications of the mo...
Future missions, both station keeping and primary electric propulsion, will require multiple thrust ...
The results of testing the flight thrusters on the SERT spacecraft during the 1974 test period are p...
The historical record of the SERT II ion thrusters and spacecraft performance for 6 1/2 years since ...
Steady state tests of the thruster 2 system on the SERT 2 spacecraft are presented. A direct thrust ...
The SERT 2 satellite, launched in February, 1970, has recently been reactivated after being dormant ...
The mechanical design of the mercury bombardment thruster that was tested on SERT is described. The ...
The SERT D (Space Electric Rocket Test - D) study defines a possible spacecraft project that would d...
Results of the SERT II flight indicate that the hollow cathode neutralizer not only represents a pow...
Description and operation of spacecraft in space electric rocket test /sert/ thrustor flight tes
Some space flight missions require advanced ion thrusters which operate at conditions much different...
The SERT I (Space Electric Rocket Test) spacecraft was launched at 0553:15 EDT on July 20, 1964, fro...
An analysis of the major plasma processes involved in the SERT 2 spacecraft experiments was conducte...
A planned flight test of an 8 cm diameter, electron-bombardment mercury ion thruster system is descr...
The SERT C (Space Electric Rocket Test - C) project study defines a spacecraft mission that would de...
Several thrust system design concepts were evaluated and compared using the specifications of the mo...
Future missions, both station keeping and primary electric propulsion, will require multiple thrust ...