Methanol acts as both solvent and catalyst in a room-temperature synthesis of Te-diol compounds that yield optically transparent and long-term stable Te-loaded liquid scintillators with 20.1 m attenuation length at 1% loading.
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The JUNO LS Mixing Plant purifies master solution to lower radioactive contaminants by approximately two orders of magnitude via extraction and filtration, then mixes it with LAB to deliver ultra-pure liquid scintillator meeting radiopurity requirements.
MUST is a new 6.5 m telescope designed to deliver simultaneous optical spectra for over 20,000 targets across a 5 deg² field, enabling the largest 3D spectroscopic map of the Universe with redshifts for more than 100 million objects over an 8-year survey.
citing papers explorer
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A Methanol-mediated Room-Temperature Synthesis of Tellurium-Loaded Liquid Scintillators for Neutrinoless Double Beta Decay Search
Methanol acts as both solvent and catalyst in a room-temperature synthesis of Te-diol compounds that yield optically transparent and long-term stable Te-loaded liquid scintillators with 20.1 m attenuation length at 1% loading.
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Mixing plant for JUNO liquid scintillator: Design, construction, installation and commissioning
The JUNO LS Mixing Plant purifies master solution to lower radioactive contaminants by approximately two orders of magnitude via extraction and filtration, then mixes it with LAB to deliver ultra-pure liquid scintillator meeting radiopurity requirements.
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From Large Telescopes to the MUltiplexed Survey Telescope (MUST)
MUST is a new 6.5 m telescope designed to deliver simultaneous optical spectra for over 20,000 targets across a 5 deg² field, enabling the largest 3D spectroscopic map of the Universe with redshifts for more than 100 million objects over an 8-year survey.