Propulsion engine for an aircraft

What is claimed is: 1. A propulsion system for an aircraft comprising: a gas turbine engine comprising a first thermal management system, the first thermal management system comprising a heat exchanger; and an electric propulsion engine defining a central axis, the electric propulsion engine comprising: an electric motor rotatable about the central axis; a fan rotatable about the central axis of the electric propulsion engine by the electric motor; a bearing coaxial with the motor and the fan and supporting rotation of the fan, the bearing positioned externally from the electric motor; and a second thermal management system comprising a thermal fluid circulation assembly, the thermal fluid circulation assembly in thermal communication with at least one of the electric motor or the bearing and further in thermal communication with the heat exchanger of the first thermal management system of the gas turbine engine. 2. The propulsion system of claim 1 , further comprising: an electric generator rotatable by the gas turbine engine, wherein the electric generator is electrically connected to the electric motor of the electric propulsion engine through an electric transmission line. 3. The propulsion system of claim 2 , further comprising: a thermal fluid line extending from the heat exchanger of the first thermal management system of the gas turbine engine towards the electric propulsion engine, wherein at least a portion of the electric transmission line is positioned within the thermal fluid line. 4. The propulsion system of claim 3 , wherein the thermal fluid line is configured as part of the thermal fluid circulation assembly of the second thermal management system of the electric propulsion engine. 5. The propulsion system of claim 1 , wherein the thermal fluid circulation assembly of the second thermal management system is in thermal communication with the electric motor and fluidly connected with the bearing. 6. The propulsion system of claim 1 , wherein the thermal fluid circulation assembly includes a scavenge fluid line in direct thermal communication with the heat exchanger of the first thermal management system of the gas turbine engine. 7. The propulsion system of claim 1 , wherein the gas turbine engine is a first gas turbine engine, and wherein the propulsion system further comprises: a second gas turbine engine comprising a third thermal management system positioned on an opposing side of a fuselage from the first thermal management system, the third thermal management system comprising a heat exchanger, wherein the thermal fluid circulation assembly of the second thermal management system of the electric propulsion engine is in thermal communication with the heat exchangers of the first thermal management systems of the first gas turbine engine and of the second gas turbine engine. 8. The propulsion system of claim 1 , further comprising: a sump enclosing the bearing, wherein the thermal fluid circulation assembly is fluidly connected to the sump. 9. The propulsion system of claim 1 , further comprising: an accessory gearbox dedicated to the electric propulsion engine. 10. The propulsion system of claim 9 , wherein the thermal fluid circulation assembly comprises a lubrication oil supply pump and a lubrication oil scavenge pump, and wherein the accessory gearbox drives the lubrication oil supply pump and the lubrication oil scavenge pump. 11. A propulsion system for an aircraft comprising: a gas turbine engine configured for mounting to a wing of the aircraft, the gas turbine engine comprising a first thermal management system having a heat exchanger; and a boundary layer ingestion aft fan defining a central axis and comprising: an electric motor; a fan rotatable about the central axis by the electric motor; a bearing supporting rotation of the fan positioned within a sump and between a forward seal and an aft seal, wherein the bearing, forward seal, and aft seal are all coaxial; and a second thermal management system comprising a thermal fluid circulation assembly, the thermal fluid circulation assembly in thermal communication with at least one of the electric motor or the bearing and further in thermal communication with the heat exchanger of the first thermal management system of the gas turbine engine. 12. The propulsion system of claim 11 , further comprising: an electric generator rotatable by the gas turbine engine, wherein the electric generator is electrically connected to the electric motor through an electric transmission line. 13. The propulsion system of claim 12 , further comprising: a thermal fluid line extending from the heat exchanger of the first thermal management system of the gas turbine engine towards the boundary layer ingestion aft fan, wherein at least a portion of the electric transmission line is positioned within the thermal fluid line. 14. The propulsion system of claim 11 , wherein the gas turbine engine is a first gas turbine engine, and wherein the propulsion system further comprises: a second gas turbine engine comprising a third thermal management system, the third thermal management system comprising a heat exchanger, wherein the thermal fluid circulation assembly of the second thermal management system of the boundary layer ingestion aft fan is in thermal communication with the heat exchangers of the first thermal management systems of the first gas turbine engine and the third thermal management system of the second gas turbine engine. 15. The propulsion system of claim 11 , wherein the thermal fluid circulation assembly of the second thermal management system is in thermal communication with both the electric motor and the bearing. 16. The propulsion system of claim 11 , further comprising: an accessory gearbox dedicated to the electric propulsion engine and including a pressurization pump for maintaining an interior cavity of the sump at a pressure that is varied from a pressure external from the sump. 17. A propulsion system for an aircraft comprising: a gas turbine engine comprising a first thermal management system, the first thermal management system comprising a heat exchanger; and an electric propulsion engine defining a central axis, the electric propulsion engine comprising: an electric motor; a fan rotatable about the central axis of the electric propulsion engine by the electric motor; a sump disposed externally from and between the electric motor and the fan; a bearing supporting rotation of the fan, the bearing positioned within the sump; and a second thermal management system comprising a thermal fluid circulation assembly, the thermal fluid circulation assembly dispensing and removing a lubrication oil from the sump and further in thermal communication with the heat exchanger of the first thermal management system of the gas turbine engine.