Non-linearity effects on the light-output calibration of light charged particles in CsI(Tl) scintillator crystals

Dell’Aquila, D.; Sweany, S.; Brown, K.W.; Chajecki, Z.; Lynch, W.G.; Teh, F.C.E.; Tsang, C.-Y.; Tsang, M.B.; Zhu, K.; Anderson, C.; Anthony, A.; Barlini, S.; Barney, J.; Camaiani, A.; Jhang, G.; Crosby, J.; Estee, J.; Ghazali, M.; Guan, F.; Khanal, O.; Kodali, S.; Lombardo, I.; Manfredi, J.; Morelli, L.; Morfouace, P.; Niu, C.; Verde, G.

doi:10.1016/j.nima.2019.03.065

Hyperspectral imaging (HSI) is a technology used in remote sensing, food processing and documentation recovery. Recently, this approach has been applied in the medical field to spectrally interrogate regions of interest within respective substrates. In spectral imaging, a two (spatial) dimensional image is collected, at many different (spectral) wavelengths, to sample spectral signatures from different regions and/or components within a sample. Here, we report on the use of hyperspectral imaging for endoscopic applications. Colorectal cancer is the 3rd leading cancer for incidences and deaths in the US. One factor of severity is the miss rate of precancerous/flat lesions (~65% accuracy). Integrating HSI into colonoscopy procedures could minimize misdiagnosis and unnecessary resections. We have previously reported a working prototype light source with 16 high-powered light emitting diodes (LEDs) capable of high speed cycling and imaging. In recent testing, we have found our current prototype is limited by transmission loss (~99%) through the multi-furcated solid light guide (lightpipe) and the desired framerate (20-30 fps) could not be achieved. Here, we report on a series of experimental and modeling studies to better optimize the lightpipe and the spectral endoscopy system as a whole. The lightpipe was experimentally evaluated using an integrating sphere andmore »

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