Nuclear reactor liquid metal coolant backflow control

The invention claimed is: 1. A nuclear reactor configured to be cooled via liquid metal circulation, the nuclear reactor comprising: a primary electromagnetic pump (EMP) within a reactor pressure vessel of the nuclear reactor, the primary EMP configured to circulate liquid metal coolant through a primary coolant flow path that includes a reactor core in the reactor pressure vessel; and a backflow EMP within the reactor pressure vessel, the backflow EMP coupled in series with the primary EMP within the primary coolant flow path, the backflow EMP being configured to be activated to at least partially mitigate backflow through the primary EMP and the primary coolant flow path in response to an at least partial failure of the primary EMP. 2. The nuclear reactor of claim 1 , wherein the backflow EMP is coupled to the primary EMP such that the backflow EMP is downstream of the primary EMP and upstream of the reactor core. 3. The nuclear reactor of claim 2 , further comprising: a plurality of liquid metal coolant return lines coupled to a downstream end of the primary EMP in parallel; and a plurality of backflow EMPs, the plurality of backflow EMPs are coupled to the plurality of liquid metal coolant return lines, such that the plurality of backflow EMPs are coupled in parallel to the downstream end of the primary EMP, and the plurality of backflow EMPs are configured to at least partially mitigate liquid metal coolant backflow through the primary EMP. 4. The nuclear reactor of claim 1 , further comprising: an EMP control system configured to detect the at least partial failure of the primary EMP, and automatically activate the backflow EMP in response to the detection of the at least partial failure of the primary EMP. 5. The nuclear reactor of claim 1 , further comprising: a plurality of primary EMPs, the plurality of primary EMPs configured to circulate liquid metal coolant in parallel to the reactor core; and a plurality of sets of backflow EMPs, each separate set of backflow EMPs being coupled to a separate primary EMP of the plurality of primary EMPs. 6. The nuclear reactor of claim 1 , wherein the primary EMP and the backflow EMP are each configured to receive power from a separate power supply. 7. The nuclear reactor of claim 1 , wherein the backflow EMP is configured to operate using alternating-current (AC) electrical power. 8. The nuclear reactor of claim 1 , wherein the liquid metal coolant includes at least one of sodium, mercury, lead, bismuth, or tin. 9. The nuclear reactor of claim 1 , wherein the backflow EMP is configured to generate a smaller level of liquid metal coolant flow than the primary EMP.