Atmospheric muon flux suppression at potential new low-radiation underground physics laboratory in Israel
Abstract
The residual atmospheric muon flux was measured at a candidate site for a new underground, low-radiation physics laboratory beneath the Kokhav HaYarden national park in Israel. Located inside the tunnels of a hydroelectric pumped-storage facility operating since 2024, the proposed site benefits from a vertical rock overburden of 361 meters, large potential floorspace, and easy access by road. A muon hodoscope of vertically stacked wide-area 144 × 60 × 1.2 cm3 plastic scintillator plates was employed to measure the suppression in the integrated muon flux at the site as compared with above ground at sea level. Data-taking took place in mid-August of 2024 for several days and was split into South-North and West-East orientations to account for the directional acceptances due to the geometry of the detector. The suppression factor is reported at 4456 77, expressed as 3.75 0.06 × 10-6 cm-2 s-1 in absolute terms, corresponding to an effective overburden of roughly 873 m.w.e.. A deeper location at the site may also be available, but it could not be reached at this time. Furthermore, the asymmetric topography of the mountain above and its muon shadow are clearly visible in the angular data. Finally, auxiliary environmental measurements recorded low background radon activity at 28.3 14.0 Bq m-3. The experimental campaign thus succeeded in demonstrating the viability of the site's working conditions for future scientific research.
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