Patent Number: 
Section: claims

1. A traveling wave nuclear fission reactor comprising:a nuclear reactor core capable of producing a burnfront emitting a neutron flux within the nuclear reactor core;a nuclear fission reactor fuel assembly disposed in the nuclear reactor core, wherein the nuclear fission reactor fuel assembly comprises a monitoring system detecting a burning parameter associated with the burnfront; andone or more control rods within the nuclear reactor core, the one or more control rods including neutron absorbing material and being capable of selectively modulating the neutron flux within the nuclear reactor core based on location of the one or more control rods in the nuclear reactor core relative to the burnfront, the location selected at least partially in response to the detected burning parameter associated with the burnfront. 2. The traveling wave nuclear fission reactor of claim 1 wherein at least one of the control rods is selectively located behind the burnfront such that the burning parameter at the burnfront increases. 3. The traveling wave nuclear fission reactor of claim 1 wherein at least one of the control rods is selectively located behind the burnfront such that the burning parameter behind the burnfront decreases. 4. The traveling wave nuclear fission reactor of claim 1 wherein the nuclear fission reactor fuel assembly is capable of monitoring velocity of the burnfront within the nuclear reactor core as the burning parameter associated with the burnfront. 5. The traveling wave nuclear fission reactor of claim 4 wherein at least one of the control rods is selectively located to modify the velocity of the burnfront within the nuclear reactor core. 6. The traveling wave nuclear fission reactor of claim 1 wherein the nuclear fission reactor fuel assembly is capable of monitoring breadth of the burnfront within the nuclear reactor core as the burning parameter associated with the burnfront. 7. The traveling wave nuclear fission reactor of claim 6 wherein at least one of the control rods is selectively located to modify the breadth of the burnfront within the nuclear reactor core. 8. The traveling wave nuclear fission reactor of claim 1 wherein the one or more control rods are further capable of selectively modulating the neutron flux within the nuclear reactor core based on a selected location of at least one of the control rods relative to the burnfront within the nuclear reactor core. 9. The traveling wave nuclear fission reactor of claim 8 wherein the at least one of the control rods is capable of being selectively located behind the burnfront such that a burning parameter at the burnfront increases and the burning parameter behind the burnfront decreases. 10. The traveling wave nuclear fission reactor of claim 8 wherein the at least one of the control rods at the selected location is capable of modifying velocity of the burnfront within the nuclear reactor core. 11. The traveling wave nuclear fission reactor of claim 8 wherein the at least one of the control rods at the selected location is capable of modifying breadth of the burnfront within the nuclear reactor core.