Control rod damping system

I claim: 1. A control rod for inserting into a guide tube of a nuclear reactor fuel assembly, comprising: an upper plug; cladding coupled to the upper plug, wherein the cladding comprises a continuous wall defining— an intermediate section extending from the upper plug, wherein the intermediate section includes a damping region having an upper damping location and a lower damping location farther from the upper plug than the upper damping location, and wherein a diameter of the damping region decreases from a first diameter at the upper damping location to a second diameter at the lower damping location; and a lower section extending downward from the damping region of the intermediate section; a neutron-absorbing material positioned in the lower section; and a spring extending through the intermediate section from the upper plug to the neutron-absorbing material. 2. The control rod of claim 1 wherein the damping region is configured to be positioned above the guide tube during normal operation of the nuclear reactor fuel assembly. 3. The control rod of claim 1 wherein the damping region is configured to enter the guide tube only during a SCRAM operation. 4. The control rod of claim 1 wherein the damping region is configured to be positioned above the guide tube during normal operation of the nuclear reactor fuel assembly and to enter the guide tube only during a SCRAM operation of the nuclear reactor fuel assembly. 5. The control rod of claim 1 wherein the spring is coupled to the neutron-absorbing material. 6. The control rod of claim 1 wherein the neutron-absorbing material does not extend into the damping region. 7. The control rod of claim 1 wherein the diameter of the damping region continuously decreases from the first diameter at the upper damping location to the second diameter at the lower damping location. 8. The control rod of claim 1 wherein the cladding has a circular cross-sectional shape. 9. A control rod for inserting into a guide tube of a nuclear reactor fuel assembly, comprising: an upper plug; cladding coupled to the upper plug, wherein the cladding comprises a continuous wall defining— an intermediate section extending from the upper plug, wherein the intermediate section includes a damping region having an upper damping location and a lower damping location farther from the upper plug than the upper damping location, wherein diameter of the damping region decreases from a first diameter at the upper damping location to a second diameter at the lower damping location, and wherein the damping region is configured to be positioned above the guide tube during normal operation of the nuclear reactor fuel assembly and to enter the guide tube only during a SCRAM operation of the nuclear reactor fuel assembly; and a lower section extending downward from the damping region of the intermediate region; a neutron-absorbing material positioned in the lower section; and a spring extending through the intermediate section from the upper plug to the neutron-absorbing material. 10. The control of claim 9 wherein the upper plug defines an upper end of the control rod. 11. The control rod of claim 9 wherein the neutron-absorbing material does not extend into the damping region. 12. The control rod of claim 9 wherein the diameter linearly decreases from the first diameter at the upper damping location to the second diameter at the lower damping location. 13. A nuclear reactor system, comprising: a nuclear core; a guide tube extending at least partially into the nuclear core; a control rod including— an upper plug; cladding coupled to the upper plug, wherein the cladding comprises a continuous wall defining— an intermediate section extending from the upper plug, wherein the intermediate section includes a damping region having an upper damping location and a lower damping location farther from the upper plug than the upper damping location, and wherein diameter of the damping region decreases from a first diameter at the upper damping location to a second diameter at the lower damping location; a lower section extending downward from the damping region of the intermediate section; an active material positioned in the lower section and configured to control a fission rate of the nuclear core; and a spring extending through the intermediate section from the upper plug to the neutron-absorbing material; and a control rod drive mechanism (CRDM) coupled to the control rod and configured to move the control rod relative to the guide tube such that the damping region is positioned above the guide tube during normal operation of the nuclear reactor system and enters the guide tube only during a SCRAM operation of the nuclear reactor system. 14. The nuclear reactor system of claim 13 wherein the upper plug defines an upper end of the control rod. 15. The nuclear reactor system of claim 13 wherein the guide tube has a constant inner diameter that is greater than the first diameter. 16. The nuclear reactor system of claim 13 wherein the CRDM is configured to position the damping region above the guide tube outside the nuclear core during the normal operation of the nuclear reactor system. 17. The nuclear reactor system of claim 13 , further comprising a coolant positioned to circulate through the guide tube without the use of pumps.