Methods and apparatus for performing propulsion operations using electric propulsion systems

What is claimed is: 1. A launch vehicle, comprising: a first space vehicle including a first core structure and a first electric propulsion system, the first space vehicle further including a tank having a first end and a second end opposite the first end, the first end coupled to the first space vehicle via a first pivotable mount, the second end coupled to the first space vehicle via a second pivotable mount; and a second space vehicle including a second core structure and a second electric propulsion system, the second core structure releasably attached to the first space vehicle in a stacked configuration. 2. The launch vehicle of claim 1 , wherein the tank stores one or more propellants including at least one of an inert gas propellant, an Argon gas propellant, a Mercury gas propellant, a Krypton gas propellant, or a Xenon gas propellant. 3. The launch vehicle of claim 1 , wherein no other propulsion system is provided on the first space vehicle and the second space vehicle to enable any of at least one of attitude control, momentum control, or orbit control of the first space vehicle and the second space vehicle. 4. The launch vehicle of claim 1 , wherein the first space vehicle includes: a first support structure coupled to a first side of the first space vehicle and a second support structure coupled to a second side of the first space vehicle, the second side opposite the first side; first gimbaled platforms coupled to the first support structure and second gimbaled platforms coupled to the second support structure; and first thrusters coupled to first adapters on the first side and second thrusters coupled to second adapters on the second side, the first adapters coupled to the first gimbaled platforms in a configuration to enable the first thrusters to be independently moveable, the second adapters coupled to the second gimbaled platforms in a configuration to enable the second thrusters to be independently moveable. 5. The launch vehicle of claim 4 , wherein no other thruster of the launch vehicle is positioned on the first space vehicle between the first thrusters and the second thrusters. 6. The launch vehicle of claim 4 , wherein at least one of the first thrusters or the second thrusters are independently rotatable. 7. The launch vehicle of claim 4 , wherein the first thrusters include a first thruster and a second thruster, the second thrusters include a third thruster and a fourth thruster, and at least one of the first thruster, the second thruster, the third thruster, or the fourth thruster is an electrostatic ion thruster or a Hall effect thruster. 8. The launch vehicle of claim 4 , wherein at least one of the first thrusters or the second thrusters are for at least one of attitude control, momentum control, or orbit control of the first space vehicle. 9. A method of launching a launch vehicle, the method comprising: disposing a first space vehicle in the launch vehicle, the first space vehicle including a first core structure and a first electric propulsion system; disposing a tank in the first space vehicle, the tank having a first end and a second end opposite the first end, the first end coupled to the first space vehicle via a first pivotable mount, the second end coupled to the first space vehicle via a second pivotable mount; disposing a second space vehicle including a second core structure and a second electric propulsion system in the launch vehicle by releasably attaching the second core structure to the first space vehicle in a stacked configuration; and subsequent to the dispositions, launching the launch vehicle. 10. The method of claim 9 , wherein the first space vehicle is an upper space vehicle and the second space vehicle is a lower space vehicle, and launching the launch vehicle is such that during liftoff acceleration forces from the first core structure of the upper space vehicle are transmitted to the second core structure of the lower space vehicle. 11. The method of claim 9 , wherein the first space vehicle is an upper space vehicle and the second space vehicle is a lower space vehicle, and the disposition of the first space vehicle and the second space vehicle includes orienting the first space vehicle and the second space vehicle in the stacked configuration within a payload region of a fairing of the launch vehicle such that at least a portion of gravitational and launch loads are transmitted from the first core structure of the upper space vehicle and are borne by the second core structure of the lower space vehicle. 12. The method of claim 9 , wherein the first electric propulsion system includes an electrostatic ion thruster and the second electric propulsion system includes a Hall effect thruster. 13. The method of claim 9 , wherein the first electric propulsion system includes a thruster, the method further including: adjusting a position of the thruster relative to a frame of the first space vehicle; and actuating the thruster to cause linear acceleration of the first space vehicle. 14. The method of claim 9 , wherein the first electric propulsion system includes a first thruster and the second electric propulsion system includes a second thruster, the method further including: adjusting a first position of the first thruster and a second position of the second thruster to facilitate separation of the first space vehicle and the second space vehicle; and actuating the first thruster and the second thruster to separate the first space vehicle from at least one of the launch vehicle or the second space vehicle. 15. The method of claim 9 , wherein the first electric propulsion system includes a first thruster and a second thruster, the method further including: adjusting a first position of the first thruster relative to a frame of the first space vehicle; adjusting a second position of the second thruster relative to the frame; and actuating the first thruster and the second thruster to achieve a net torque of the first space vehicle. 16. The method of claim 9 , wherein the first electric propulsion system includes a first thruster and a second thruster, and the second electric propulsion system includes a third thruster, the method further including: adjusting a first position of the first thruster relative to a frame of the first space vehicle; adjusting a second position of the second thruster relative to the frame; actuating the first thruster and the second thruster to achieve a net torque of the first space vehicle; and actuating the third thruster to separate the second space vehicle from the first space vehicle. 17. The method of claim 9 , further including, subsequent to the launching of the launch vehicle: separating the first space vehicle and the second space vehicle from the launch vehicle; separating the first space vehicle from the second space vehicle; moving the first space vehicle into a first orbit with the first electric propulsion system; and moving the second space vehicle into a second orbit with the second electric propulsion system. 18. The method of claim 17 , wherein the first electric propulsion system includes first thrusters and second thrusters, and moving the first space vehicle into the first orbit includes: moving one or more of the first thrusters into a first position, the first thrusters coupled to first adapters on a first side of the first space vehicle, the first adapters coupled to first gimbaled platforms in a configuration to enable the first thrusters to be independently moveable; and moving one or more of the second thrusters into a