Cooled optical light guide for low-level light detectors and method of temperature stabilization for imaging detectors

What is claimed is: 1. A device comprising: an imaging detection module having a scintillator array capable of emitting light and an array detector capable of detecting the emitted light from said scintillator array; an optical light guide that is in juxtaposition to and disposed between said scintillator array and said array detector, wherein said optical light guide comprising a conduit having a first open end, a second open end, and a middle section, wherein said second open end of said conduit is located opposite of said first open end of said conduit, and wherein said middle section of said conduit is disposed between and in communication with said first open end of said conduit and said second open end of said conduit, and wherein said conduit has a translucent or transparent top extending for at least a portion of the length of said conduit forming a first optical window, and wherein said conduit has a translucent or transparent bottom extending for at least a portion of the length of said conduit forming a second optical window, and wherein a passageway is established between said first open end of said conduit, said middle section of said conduit, and said second open end of said conduit, and wherein at least a portion of said translucent or transparent top of said conduit is in alignment above at least a portion of said translucent or transparent bottom of said conduit such that the light emitted by said scintillator array is capable of passing through said second optical window, said passageway of said middle section of said conduit, and said first optical window for detection by said array detector; a fluid medium circulation conduit having (i) a first tube member having a first open end, a second open end, and a middle section, wherein said second open end of said first tube member is located opposite of said first open end of said first tube member, and wherein said middle section of said first tube member is disposed between and in communication with said first open end of said first tube member and said second open end of said first tube member, and wherein said first open end of said first tube member is in sealed engagement and communication with said first open end of said conduit of said optical light guide, and wherein said second open end of said first tube member is in sealed engagement and communication with said second open end of said conduit of said optical light for forming a fluid medium circuit passageway between said conduit of said optical light guide and said first tube member of said fluid medium circulation conduit; and at least one temperature control element that is in communication with said fluid medium circuit passageway. 2. The device of claim 1 wherein said fluid medium circuit passageway includes at least one fluid medium movement device for effecting the movement of a fluid medium through said conduit of said optical light guide and said fluid medium circulation conduit. 3. The device of claim 2 wherein said fluid medium movement device is a pump that is capable of adjusting the rate and volume of said fluid medium passing through said fluid medium circuit passageway. 4. The device of claim 1 wherein said scintillator array is a silicon photomultiplier. 5. The device of claim 1 wherein said temperature control element is capable of lowering and stabilizing the temperature of said fluid medium passing through said fluid medium circuit passageway. 6. The device of claim 1 that is capable of cooling said emitted light delivered to said array detector. 7. The device of claim 1 that is capable of increasing a signal to noise ratio performance of said scintillator array and said array detector. 8. The device of claim 1 that is capable of stabilizing the temperature of said detected light emitted from said scintillator array. 9. The device of claim 1 including wherein said fluid medium is a mixture of ethylene glycol and water. 10. The device of claim 1 including a reservoir in sealed engagement and communication with said fluid medium circuit passageway. 11. An optical light guide comprising: a conduit having a first open end, a second open end, and a middle section, wherein said second open end of said conduit is located opposite of said first open end of said conduit, and wherein said middle section of said conduit is disposed between and in communication with said first open end of said conduit and said second open end of said conduit, and wherein said conduit has a translucent or transparent top extending for at least a portion of the length of said conduit forming a first optical window, and wherein said conduit has a translucent or transparent bottom extending for at least a portion of the length of said conduit forming a second optical window, and wherein a passageway is established between said first open end of said conduit, said middle section of said conduit, and said second open end of said conduit, and wherein at least a portion of said translucent or transparent top of said conduit is in alignment above at least a portion of said translucent or transparent bottom of said conduit including wherein said passageway is capable of receiving an influx of a temperature controlled fluid medium at said first open end of said conduit, and wherein said temperature controlled fluid medium is capable of passing through said passageway and forming an effluent stream of said temperature controlled fluid medium at said second open end of said conduit. 12. An optical light guide comprising: a conduit having a first open end, a second open end, and a middle section, wherein said second open end of said conduit is located opposite of said first open end of said conduit, and wherein said middle section of said conduit is disposed between and in communication with said first open end of said conduit and said second open end of said conduit, and wherein said conduit has a translucent or transparent top extending for at least a portion of the length of said conduit forming a first optical window, and wherein said conduit has a translucent or transparent bottom extending for at least a portion of the length of said conduit forming a second optical window, and wherein a passageway is established between said first open end of said conduit, said middle section of said conduit, and said second open end of said conduit, and wherein at least a portion of said translucent or transparent top of said conduit is in alignment above at least a portion of said translucent or transparent bottom of said conduit including wherein said passageway is capable of receiving an influx of a temperature controlled fluid medium at said second open end of said conduit, and wherein said temperature controlled fluid medium is capable of passing through said passageway and forming an effluent stream of temperature controlled fluid medium at said first open end of said conduit. 13. An optical light guide comprising: a conduit having a first open end, a second open end, and a middle section, wherein said second open end of said conduit is located opposite of said first open end of said conduit, and wherein said middle section of said conduit is disposed between and in communication with said first open end of said conduit and said second open end of said conduit, and wherein said conduit has a translucent or transparent top extending for at least a portion of the length of said conduit forming a first optical window, and wherein said conduit has a translucent or transparent bottom extending for at least a portion of the length of said conduit forming a second optical window, and wherein a passageway is established between said first open end of said conduit, said midd