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A scientist, student and millwright working on assembling the HALO experiment, a supernovae detector at SNOLAB. |
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A view of the inside of the PICASSO experiment, a leading dark matter experiment located 6800 feet underground at SNOLAB |
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SNOLAB scientist entering the long neck of the acrylic vessel where 1000 litres of heavy water was used to detect neutrinos |
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Staff, students and scientists take a break in the SNOLAB lunchroom, 6800 feet underground. |
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Performing tests inside the 12m acrylic vessel. You can see the photo multiplier tubes facing in to the heaavy water through the think acrylic. |
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View from the bottom of the cavity that holds the SNO+ experiment. this is the 17m diameter structure that holds 9600 photo multiplier tubes. |
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A wide lens view of the SNO experiment. The geodesic shpere holds 9600 photo multiplier tubes that detect signals in 1 million litres of heavy water. |
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Scientist giving a tour of the underground facility. SNOLAB boasts 50 thousand square feet of clean space. |
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Helping out a student working on the DEAP-1 experiment, a dark matter detector that uses liquid argon. |
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A view of the DEAP and MiniCLEAN detectors currently under construction. |
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A SNOLAB student working on the DEAP detector |
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Researcher Dr. Mark Boulay looking on as his next experiment, DEAP-3600 is being constructed. |
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A view of the DEAP and Mini-CLEAN detectors currently under construction at SNOLAB. |
