Downhole linear pump system

The invention claimed is: 1. A system, comprising: a housing having a first end corresponding to a pump intake and a second end corresponding to a pump discharge; a pump barrel disposed within the housing, the pump barrel defining a pump chamber; a standing valve disposed at a first end of the pump chamber, the standing valve having a valve body that is stationary relative to the housing; a traveling valve disposed at a second end of the pump chamber, the traveling valve having a valve body that is movable along an axial axis and relative to the housing; a motor stator disposed within the housing, the motor stator to receive electrical power and produce a rotating electromagnetic field from the electrical power; a motor rotor rotatably supported within the motor stator, the motor rotor having characteristics to rotate about the axial axis in response to the rotating electromagnetic field, wherein the motor rotor comprises a rotor body having a bore and a first threaded surface exposed to the bore; and a traveling plug coupled to the valve body of the traveling valve and arranged to move linearly along the axial axis in response to rotation of the motor rotor. 2. The system of claim 1 , wherein the traveling plug is disposed within the bore, and wherein the traveling plug has a second threaded surface in opposing relation to the first threaded surface and threadedly engaged with the first threaded surface. 3. The system of claim 2 , wherein the traveling plug comprises at least one orifice providing a path for passage of fluids from the pump intake into a space adjacent to the traveling valve. 4. The system of claim 3 , further comprising an actuator arm coupling the traveling plug to the traveling valve. 5. The system of claim 4 , wherein the actuator arm is disposed in the space, the space is in communication with the pump intake through the at least one orifice in the traveling plug, and the actuator arm comprises at least one fluid path connecting the space to an orifice in the valve body of the traveling valve. 6. The system of claim 3 , wherein the valve body of the standing valve is coupled to the pump barrel, and wherein the pump barrel extends into the bore of the rotor body. 7. The system of claim 3 , wherein the valve body of the traveling valve is coupled to the pump barrel, wherein the pump barrel is coupled to the traveling plug to move with the traveling plug, and wherein the valve body of the standing valve is coupled to the housing. 8. The system of claim 2 , wherein the rotor comprises one or more permanent magnets carried by the rotor body, and wherein the stator comprises windings and lamination. 9. The system of claim 8 , wherein the windings and lamination are encapsulated in an electrically insulating material. 10. The system of claim 8 , further comprising a motor drive to supply the electrical power to the windings. 11. The system of claim 10 , wherein the motor drive comprises a three-phase alternating current variable speed drive. 12. A system, comprising: a tubing disposed in a wellbore traversing a producing zone in a subsurface; a downhole pump system disposed in the wellbore and positioned to lift formation fluids from the producing zone up the tubing, the downhole pump system comprising: a housing having a first end corresponding to a pump intake and a second end corresponding to a pump discharge; a pump barrel disposed within the housing, the pump barrel defining a pump chamber; a standing valve disposed at a first end of the pump chamber, the standing valve having a valve body that is stationary relative to the housing; a traveling valve disposed at a second end of the pump chamber, the traveling valve having a valve body that is movable along an axial axis and relative to the housing; a motor stator disposed within the housing, the motor stator to receive electrical power and produce a rotating electromagnetic field from the electrical power; a motor rotor rotatably supported within the stator, the motor rotor having characteristics to rotate about the axial axis in response to the rotating electromagnetic field, and comprising: a rotor body having a bore; and a first threaded surface exposed to the bore; a traveling plug coupled to the valve body of the traveling valve and arranged to move linearly along the axial axis in response to rotation of the motor rotor, the traveling plug being disposed within the bore, wherein the traveling plug has a second threaded surface in opposing relation to the first threaded surface and threadedly engaged with the first threaded surface; and a motor drive positioned at a surface location above the wellbore, the motor drive to supply the electrical power to the stator. 13. The system of claim 12 , wherein the motor rotor comprises one or more permanent magnets carried by the rotor body, and wherein the motor stator comprises a plurality of windings and lamination. 14. The system of claim 12 , further comprising an actuator arm connecting the traveling plug to the valve body of the traveling valve; wherein the actuator arm is disposed in a space between the traveling plug and the traveling valve, wherein the space is fluidly connected to the pump intake through at least one orifice in the traveling plug, and wherein the actuator arm comprises at least one fluid path connecting the space to an orifice in the valve body of the traveling valve. 15. The system of claim 14 , wherein the standing valve is coupled to the pump barrel. 16. The system of claim 12 , wherein the valve body of the traveling valve is coupled to the pump barrel, wherein the pump barrel is coupled to the traveling plug, and wherein the valve body of the standing valve is coupled to the housing. 17. The system of claim 12 , wherein the housing is coupled to the tubing. 18. A method, comprising: disposing a pump inside a wellbore; producing a rotating electromagnetic field by a motor stator of the pump; rotating a motor rotor of the pump by the rotating electromagnetic field about an axial axis; transferring the rotation of the motor rotor to a linear motion along the axial axis of a traveling plug of the pump that is disposed within a bore of and engaged with the motor rotor through a threaded surface exposed to the bore; moving a traveling valve of the pump relative to a standing valve of the pump by the linear motion of the traveling plug; and alternately opening and closing the traveling valve and the standing valve during the moving of the valve body of the traveling valve relative to the standing valve to receive fluid into a pump chamber between the traveling valve and the standing valve and discharge fluid from the pump chamber.