Controlling spatial position of a propagating nuclear fission deflagration wave within a burning wavefront heat generating region

The invention claimed is: 1. A method comprising: controlling spatial position as a function of time of a propagating nuclear deflagration wave within a burning wavefront heat generating region of a nuclear fission reactor core by moving one or more structures containing neutron absorbing materials relative to the burning wavefront heat generating region, wherein at least one of the one or more structures include fertile material as a neutron absorber, wherein controlling the spatial position as a function of time of the propagating nuclear deflagration wave comprises moving the one or more structures relative to the burning wavefront heat generating region to spatially fix the burning wavefront within the nuclear fission reactor core. 2. The method of claim 1 , wherein moving the one or more structures relative to the burning wavefront heat generating region comprises: introducing the one or more structures into the burning wavefront heat generating region. 3. The method of claim 2 , wherein the one or more structures are placed in the burning wavefront heat generating region radially outward relative to the propagating nuclear deflagration wave. 4. The method of claim 3 , wherein placement of the one or more structures is determined to control a propagation direction of the propagating nuclear deflagration wave. 5. The method of claim 2 , wherein the one or more structures are placed in the burning wavefront heat generating region radially inward relative to the propagating nuclear deflagration wave. 6. The method of claim 1 , wherein moving the one or more structures relative to the burning wavefront heat generating region comprises: removing the one or more structures from the burning wavefront heat generating region. 7. The method of claim 1 , wherein moving the one or more structures relative to the burning wavefront heat generating region comprises: determining a number of the one or structures to introduce into the burning wavefront heat generating region, the number of the one or more structures to introduce into the burning wavefront heat generating region dependent upon an expected power demand of the burning wavefront heat generating region; and introducing the determined number of the one or more structures into the burning wavefront heat generating region. 8. The method of claim 1 , wherein moving the one or more structures relative to the burning wavefront heat generating region comprises: determining a number of the one or more structures to introduce into the burning wavefront heat generating region, the number of the one or more structures to introduce into the burning wavefront heat generating region dependent upon a target temperature of the burning wavefront heat generating region; and introducing the determined number of the one or more structures into the burning wavefront heat generating region. 9. The method of claim 1 , wherein the burning wavefront remains spatially fixed within the nuclear fission reactor core by moving the one or more structures relative to the burning wavefront heat generating region. 10. The method of claim 1 , wherein moving the one or more structures further comprises: removing burnt nuclear fuel from the burning wavefront heat generating region; and introducing unused nuclear fuel into the burning wavefront heat generating region. 11. A system comprising: a nuclear fission reactor core; one or more structures including fertile material as a neutron absorber; and a control system configured to control spatial position as a function of time of a propagating nuclear fission deflagration wave within a burning wavefront heat generating region of the nuclear fission reactor core by moving the one or more structures relative to the burning wavefront heat generating region to fix the spatial position of the burning wavefront within the nuclear fission reactor core. 12. The system of claim 11 , wherein the control system is configured to move the one or more structures relative to the burning wavefront heat generating region by introducing the one or more structures into the burning wavefront heat generating region. 13. The system of claim 12 , wherein the control system is configured to move the one or more structures relative to the burning wavefront heat generating region by placing the one or more structures in the burning wavefront heat generating region radially outward relative to the propagating nuclear deflagration wave. 14. The system of claim 13 , wherein the control system is further configured to determine placement of the one or more structures to control a propagation direction of the propagating nuclear deflagration wave. 15. The system of claim 12 , wherein the control system is configured to move the one or more structures relative to the burning wavefront heat generating region by placing the one or more structures in the burning wavefront heat generating region radially inward relative to the propagating nuclear deflagration wave. 16. The system of claim 11 , wherein the control system is configured to move the one or more structures relative to the burning wavefront heat generating region by removing the one or more structures from the burning wavefront heat generating region. 17. The system of claim 11 , wherein the control system is configured to move the one or more structures relative to the burning wavefront heat generating region by: determining a number of the one or more structures to introduce into the burning wavefront heat generating region, the number of the one or structures to introduce into the burning wavefront heat generating region dependent upon an expected power demand of the burning wavefront heat generating region; and introducing the determined number of the one or more structures into the burning wavefront heat generating region. 18. The system of claim 11 , wherein the control system is configured to move the one or more structures relative to the burning wavefront heat generating region by: determining a number of the one or more structures to introduce into the burning wavefront heat generating region, the number of the one or more structures to introduce into the burning wavefront heat generating region dependent upon a target temperature of the burning wavefront heat generating region; and introducing the determined number of the one or more structures into the burning wavefront heat generating region. 19. The system of claim 11 , wherein the control system is configured to spatially fix the burning wavefront within the nuclear fission reactor core by moving the one or more structures relative to the burning wavefront heat generating region. 20. The system of claim 11 , wherein the control system is further configured to control spatial position as a function of time of the propagating nuclear fission deflagration wave within the burning wavefront heat generating region of the nuclear fission reactor core by removing neutron absorbing material from the burning wavefront heat generating region and introducing neutron absorbing material into the burning wavefront heat generating region.