Devices, systems, and methods for adjusting the output of a reactor core

What is claimed is: 1. An adjustable core assembly for a nuclear reactor, wherein the adjustable core is configured to be coupled to a reflector, the adjustable core assembly comprising: a plurality of control drums configured to shut down the nuclear reactor; a plurality of reactivity control cells, wherein each reactivity control cell of the plurality of reactivity control cells is configured to accommodate a reactivity control rod comprising a neutron absorptive material configured to control fission and prevent the adjustable core assembly from achieving a critical temperature without shutting down the nuclear reactor; and a plurality of unit cells, wherein the plurality of unit cells defines a radial dimension corresponding to an initial power output of the core, wherein each unit cell of the plurality of unit cells comprises a plurality of fuel channels configured to accommodate fuel configured to generate energy, and wherein each unit cell of the plurality of unit cells comprises a plurality of heat pipe channels configured to accommodate a heat pipe configured to transfer thermal energy away from the core, and wherein a number of fuel channels of the plurality of fuel channels is larger than a number of heat pipe channels of the plurality of heat pipe channels; wherein each unit cell of the plurality of unit cells and each reactivity control cell of the plurality of reactivity control cells is modularly configured to be coupled to an adjacent unit cell of the plurality of unit cells and an adjacent reactivity control cell of the plurality of reactivity control cells, thereby altering a radial dimension of the adjustable core assembly, wherein the altered radial dimension corresponds to an adjusted power output of the adjustable core assembly, and wherein the adjusted power output of the adjustable core assembly is different than the initial power output of the adjustable core assembly. 2. The adjustable core assembly of claim 1 , wherein each unit cell of the plurality of unit cells is oriented at a predetermined pitch relative to a radially adjacent unit cell of the plurality of unit cells. 3. The adjustable core assembly of claim 1 , wherein each unit cell of the plurality of unit cells is configured to be arranged a predetermined distance away from a radially adjacent unit cell of the plurality of unit cells, wherein the predetermined distance is specifically configured such that, if a first heat pipe fails, a second heat pipe radially adjacent to the first heat pipe is configured to compensate for the failure by transferring additional thermal energy away from the core. 4. The adjustable core assembly of claim 3 , wherein the predetermined distance is less than or equal to 2 millimeters. 5. The adjustable core assembly of claim 1 , wherein each of the plurality of reactivity control cells further comprises a second plurality of fuel channels configured to accommodate fuel configured to generate energy.