Thermoacoustic enhancements for nuclear fuel rods

The invention claimed is: 1. A nuclear thermoacoustic device for remotely monitoring a fuel assembly in a nuclear reactor, comprising: a housing defining an interior chamber; a radiation absorber disposed in the interior chamber of the housing, the radiation absorber configured to absorb radiation from the fuel assembly and to be heated thereby such that the radiation absorber is a heat source; a stack having a hot end and a cold end, the stack disposed in a mid-portion of the interior chamber of the housing with the hot end directed toward and heated by the radiation absorber; and a volume of gas or gas mixture disposed in the interior chamber; wherein the stack is configured to receive heat energy from the radiation absorber, to convert the received heat energy into an acoustic standing wave within the volume of gas or gas mixture in the interior chamber, and to product a frequency of the acoustic standing wave corresponding to an effective temperature of gas or gas mixture in the interior chamber such that the effective temperature of the volume of gas or gas mixture in the interior chamber is capable of being monitored remotely from outside the interior chamber by measuring the frequency of the acoustic energy radiated from the housing caused by the acoustic standing wave. 2. A device in accordance with claim 1 , wherein the stack is a ceramic element having an array of parallel channels. 3. A device in accordance with claim 1 , wherein the thermoacoustic device lacks heat exchangers. 4. A device in accordance with claim 1 , wherein the hot end of the stack is spaced from the radiation absorber. 5. A device in accordance with claim 1 , wherein the radiation absorber is a gamma absorber. 6. A device in accordance with claim 1 , wherein the radiation absorber is in one end of the interior chamber. 7. A system for remotely monitoring a fuel assembly in a nuclear reactor, comprising: at least one nuclear thermoacoustic device according to claim 1 ; at least one additional thermoacoustic device disposed in the fuel assembly, comprising: a housing defining an interior chamber; a portion of nuclear fuel disposed in the interior chamber of the housing; a stack having a hot end and a cold end, the stack disposed in a mid-portion of the interior chamber of the housing with the hot end directed toward and heated by the portion of nuclear fuel; and a volume of gas or gas mixture disposed in the interior chamber; wherein the stack is configured to receive heat energy from the portion of nuclear fuel, to convert the received heat energy into an acoustic standing wave within the volume of gas or gas mixture in the interior chamber, and to produce a frequency of the acoustic standing wave corresponding to an effective temperature of gas or gas mixture in the interior chamber such that the effective temperature of the volume of gas or gas mixture in the interior chamber is capable of being monitored remotely from outside the interior chamber by measuring the frequency of the acoustic energy radiated from the housing caused by the acoustic standing wave.