Optical property measurements of lithium chloride aqueous solution for neutrino detection

The lithium chloride aqueous solution has a great potential to be the detection medium of a large neutrino detector, for the nuclide Li-7 provides a charged-current interaction channel with a high cross-section for the MeV-scale solar electron-neutrinos. Previous research questioned the optical transparency of the lithium chloride solution for building a large detector. This work measures the optical properties of a saturated lithium chloride solution. The solution shows no interfering fluorescence or absorption in the UV/visible wavelength range. The attenuation length is measured to be 10.9$\pm$0.2 m. Furthermore, the Cherenkov light yield of the lithium chloride solution is measured. This work shows that the lithium chloride aqueous solution does not obstruct the propagation of the Cherenkov light and it is feasible in the sense of optical transparency to use a saturated lithium chloride solution to build a neutrino detector with a size of 10 meters.