Hybrid electric turbine engine

What is claimed is: 1. A hybrid electric gas turbine engine, comprising: a fan section having a fan; a turbine section having a turbine drivably connected to the fan through a main shaft that extends along a central longitudinal axis; a first gas generating core extending along a first axis that is radially offset from the central longitudinal axis; a generator assembly drivably connected to the main shaft through a gear assembly; a shroud extending from an inlet case of the fan section towards the turbine, the shroud being disposed about the first gas generating core and the generator assembly such that the first gas generating core and the generator assembly are located between the central longitudinal axis and the shroud. 2. The hybrid electric gas turbine engine of claim 1 , wherein the generator assembly includes a motor-generator having a shaft extending along an electric motor axis and an electric motor gear disposed at an end of the shaft. 3. The hybrid electric gas turbine engine of claim 2 , wherein the electric motor axis is radially offset from at least one of the central longitudinal axis and the first axis. 4. The hybrid electric gas turbine engine of claim 2 , wherein the gear assembly includes: a main gear disposed about the main shaft; and a gear shaft assembly having a gear shaft extending along a gear shaft axis, a first gear disposed at a first end of the gear shaft, and a second gear disposed at a second end of the gear shaft. 5. The hybrid electric gas turbine engine of claim 4 , wherein the gear shaft axis is disposed in a nonparallel relationship with at least one of the electric motor axis and the central longitudinal axis. 6. The hybrid electric gas turbine engine of claim 4 , wherein the first gear is in meshed engagement with the main gear and the second gear is in meshed engagement with the electric motor gear. 7. The hybrid electric gas turbine engine of claim 4 , further comprising: a second gas generating core extending along a second axis that is radially offset from the central longitudinal axis, the second gas generating core being located between the central longitudinal axis and the shroud. 8. The hybrid electric gas turbine engine of claim 7 , wherein the second gas generating core is radially offset from the first gas generating core. 9. A hybrid electric gas turbine engine, comprising: a fan section having a fan and a guide vane extending from a static structure; a turbine section having an exit housing and a turbine drivably connected to the fan through a main shaft that extends along a central longitudinal axis; a first gas generating core extending along a first axis that is radially offset from the central longitudinal axis; a generator assembly drivably connected to the main shaft through a gear assembly, the generator assembly being circumferentially offset from the first gas generating core; and a shroud extending from the static structure towards the turbine, the shroud being disposed about the first gas generating core and the generator assembly such that the first gas generating core and the generator assembly are located between the central longitudinal axis and the shroud. 10. The hybrid electric gas turbine engine of claim 9 , further comprising a support structure extends between and operatively connects the static structure and the exit housing. 11. The hybrid electric gas turbine engine of claim 9 , further comprising a sleeve is disposed about the main shaft. 12. The hybrid electric gas turbine engine of claim 11 , wherein the sleeve defines an opening that is arranged to receive air from the fan to cool the main shaft. 13. The hybrid electric gas turbine engine of claim 9 , further comprising a second gas generating core extending along a second axis that is radially offset from the central longitudinal axis, the second gas generating core being located between the central longitudinal axis and the shroud. 14. The hybrid electric gas turbine engine of claim 13 , wherein the generator assembly is circumferentially disposed between the first gas generating core and the second gas generating core. 15. The hybrid electric gas turbine engine of claim 13 , further comprising: an exhaust duct that includes a first rear duct that extends from an end of the first gas generating core towards the turbine and a second rear duct that extends from an end of the second gas generating core towards the turbine. 16. The hybrid electric gas turbine engine of claim 15 , wherein the first rear duct and the second rear duct merge into a turbine housing that is disposed about the turbine. 17. The hybrid electric gas turbine engine of claim 9 , wherein the generator assembly includes a motor-generator having a shaft and an electric motor gear disposed at an end of the shaft. 18. The hybrid electric gas turbine engine of claim 17 , wherein the gear assembly includes: a main gear disposed about the main shaft and disposed proximate the static structure; and a gear shaft assembly having a gear shaft, a first gear disposed at a first end of the gear shaft, and a second gear disposed at a second end of the gear shaft. 19. The hybrid electric gas turbine engine of claim 18 , wherein the first gear is in meshed engagement with the main gear and the second gear is in meshed engagement with the electric motor gear.