Stationary isolated rod couplings for use in a nuclear reactor control rod drive

What is claimed is: 1. A control rod drive for positioning a control element in a nuclear reactor, the drive comprising: an isolation barrier; an induction coil wound about an axis, wherein the axis is outside of the isolation barrier; a magnetic material inside the isolation barrier, wherein the material is configured to secure to the control element, and wherein the isolation barrier is impermeable to gasses and fluids such that a pressure gradient may be maintained across the inside and the outside of the isolation barrier; and a housing containing the induction coil and the isolation barrier, wherein the housing is configured to maintain a vacuum outside the isolation barrier. 2. The control rod drive of claim 1 , further comprising: a plurality of the induction coils aligned in a length at least equal to an entire stroke distance of the control element. 3. The control rod drive of claim 2 , wherein the plurality of induction coils includes a first induction coil and a second induction coil each wound about separate axes outside the isolation barrier. 4. The control drive of claim 1 , further comprising: a closed coolant channel along the induction coil configured to carry a coolant flow to cool the induction coil. 5. The control rod drive of claim 1 , wherein the induction coil is immobile and does not move with the magnetic material and control element. 6. The control rod drive of claim 1 , wherein the magnetic material is at least one of a permanent magnet and an electromagnet, and wherein the material is positioned at a vertical end of an actuating rod of the control element. 7. The control rod drive of claim 1 , further comprising: a coolant inlet and outlet in the housing. 8. The control rod drive of claim 1 , further comprising: a plurality of magnetic overtravel latches inside the isolation barrier configured to hold the control element in an overtravel position; and a plurality of overtravel release coils outside the isolation barrier configured to move the overtravel latches into a release position. 9. The control rod drive of claim 8 , wherein each of the magnetic overtravel latches includes a spring biasing the overtravel latch into a holding position, and wherein the overtravel release coils are configured to bias compress the spring through magnetic force. 10. The control rod drive of claim 1 , further comprising: a control rod assembly in which the magnetic material is secured, wherein the control rod assembly includes a drive rod and lift rod, and wherein the control rod assembly is configured to directly join to the control element. 11. A control rod drive for positioning a control element in a nuclear reactor, the drive comprising: an isolation barrier; an induction coil outside of the isolation barrier; a magnetic material inside the isolation barrier, wherein the material is configured to secure to the control element, and wherein the isolation barrier is impermeable to gasses and fluids such that a pressure gradient may be maintained across the inside and the outside of the isolation barrier; and a housing containing the induction coil and the isolation barrier, wherein the housing is configured to maintain a vacuum outside the isolation barrier. 12. The control rod drive of claim 11 , further comprising: a coolant inlet and outlet in the housing. 13. The control rod drive of claim 11 , further comprising: a plurality of the induction coils aligned in a length at least equal to an entire stroke distance of the control element. 14. The control drive of claim 11 , further comprising: a closed coolant channel along the induction coil configured to carry a coolant flow to cool the induction coil. 15. The control rod drive of claim 11 , wherein the induction coil is immobile and does not move with the magnetic material and control element. 16. The control rod drive of claim 11 , wherein the magnetic material is at least one of a permanent magnet and an electromagnet, and wherein the material is positioned at a vertical end of an actuating rod of the control element. 17. A control rod drive for positioning a control element in a nuclear reactor, the drive comprising: an isolation barrier; an induction coil outside of the isolation barrier; a magnetic material inside the isolation barrier, wherein the material is configured to secure to the control element, and wherein the isolation barrier is impermeable to gasses and fluids such that a pressure gradient may be maintained across the inside and the outside of the isolation barrier; a plurality of magnetic overtravel latches inside the isolation barrier configured to hold the control element in an overtravel position; and a plurality of overtravel release coils outside the isolation barrier configured to move the overtravel latches into a release position. 18. The control rod drive of claim 17 , wherein each of the magnetic overtravel latches includes a spring biasing the overtravel latch into a holding position, and wherein the overtravel release coils are configured to bias compress the spring through magnetic force. 19. The control drive of claim 17 , further comprising: a closed coolant channel along the induction coil configured to carry a coolant flow to cool the induction coil. 20. The control rod drive of claim 17 , wherein the magnetic material is at least one of a permanent magnet and an electromagnet, and wherein the material is positioned at a vertical end of an actuating rod of the control element.