Vented launch vehicle adaptor for a manned spacecraft with pusher launch abort system

I claim: 1. A pusher launch abort system (LAS), the system comprising: a launch vehicle adaptor having a first end and an opposite second end, the first end configured to couple to a service module and the second end configured to couple to a launch vehicle; at least two pusher-type launch abort system thrusters coupled proximate a periphery of the service module, wherein the at least two launch abort system thrusters are configured to produce thrust in a direction away from the launch vehicle; wherein the launch vehicle adapter has door covers configured to vent exhaust plumes from the at least two launch abort system thrusters to an exterior of the launch vehicle adapter. 2. The system of claim 1 , wherein the launch vehicle adaptor comprises a vented launch vehicle adaptor to direct thrust plumes generated by the launch abort system thruster away from the launch vehicle. 3. The system of claim 1 , wherein the launch vehicle is connected to the launch vehicle adaptor via an adaptor ring. 4. The system of claim 3 , wherein the adaptor ring is one of a machined ring, a cast ring, and a composite ring. 5. The system of claim 1 , wherein the launch vehicle adaptor is one of a cylindrical shape and a conic shape. 6. The system of claim 1 , wherein a portion of the at least one launch abort system thruster is housed within an interior of the service module. 7. The system of claim 1 wherein the door covers are blow-out door covers. 8. The system of claim 1 wherein the door covers are hinged door covers. 9. A pusher launch abort system (LAS), the system comprising: a launch vehicle adaptor having a first end and an opposite second end, the first end configured to couple to a service module and the second end configured to couple to a launch vehicle; at least two pusher-type launch abort system thrusters coupled proximate a periphery of the service module, wherein the at least two launch abort system thrusters are configured to produce thrust in a direction away from the launch vehicle wherein the launch vehicle adapter has a shell structure, the shell structure having blow-out door covers configured to be ejected from the shell structure in response to an overpressurization event within the launch vehicle adaptor. 10. The system of claim 9 , wherein the launch vehicle adaptor is a cylindrical shape. 11. The system of claim 9 , wherein the launch vehicle adaptor is a conical shape. 12. A manned spacecraft comprising: a launch vehicle; a crew module/service module; and a pusher launch abort system (LAS) system comprising a launch vehicle adaptor having a first end and an opposite second end, the first end coupled to the crew module/service module and the second end coupled to the launch vehicle, and at least two pusher-type launch abort system thrusters coupled proximate a periphery of the crew module/service module, wherein the at least two launch abort system thrusters are configured to produce thrust in a direction away from the launch vehicle, the launch vehicle adaptor having a shell structure with door covers configured to vent exhaust plumes from the at least two launch abort system thrusters to an exterior of the launch vehicle adapter. 13. The manned spacecraft of claim 12 , wherein door covers of the launch vehicle adaptor direct thrust plumes generated by the at least two launch abort system thrusters away from the launch vehicle. 14. The manned spacecraft of claim 12 , wherein the door covers in the shell structure are configured to be ejected from the shell structure in response to an overpressurization event within the launch vehicle adaptor. 15. The manned spacecraft of claim 12 , wherein the launch vehicle is connected to the launch vehicle adaptor via an adaptor ring. 16. The manned spacecraft of claim 15 , wherein the adaptor ring is one of a machined ring, a cast ring, and a composite ring. 17. The manned spacecraft of claim 12 , wherein the launch vehicle adaptor is one of a cylindrical shape and a conic shape. 18. The manned spacecraft of claim 12 , wherein a portion of the at least one launch abort system thruster is housed within an interior of the crew module/service module. 19. The manned spacecraft of claim 12 , wherein the door covers in the shell structure are configured with hinges to open in response to an overpressurization event within the launch vehicle adaptor. 20. The manned spacecraft of claim 12 , wherein the launch vehicle adaptor is one of a cylindrical shape and a conic shape.