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The recovered STRAW pathfinder hardware is back in Germany for analysis

Progress towards creating the first neutrino telescope in the Pacific Ocean took another step forward with the project’s instrumentation being shipped to Germany for pre-launch checks.

An optical module of the STRAW pathfinder experiment is being prepared for transport to Germany at ONC's marine technology center. (Photo: ONC)

Research has shown that the deep ocean is the perfect environment to study neutrinos, which are elusive subatomic particles produced by nuclear reactions in the sun, radioactive decay, and exploding stars. A five-year project has concluded that Cascadia Basin–the deepest site in ONC’s NEPTUNE observatory off west Vancouver Island–is a suitable host location for a large-scale neutrino telescope.

Since 2018, the Pacific Ocean Neutrino Experiment (P-ONE) has been testing Cascadia’s suitability using sophisticated light sensors placed on long mooring strings. Neutrino particles can only be observed by the light they emit when they collide with other particles, making this quiet and dark 2.6 kilometre deep site an ideal location when paired with ONC’s observatory. The sensors have been successfully recording and sending this data to ONC’s Oceans 3.0 data portal, where they are accessible to the project’s international team of scientists.

The three moorings (a 500-metre string and two 150 metre in length) were disconnected and recovered during last month’s summer 2023 #ONCAbyss expedition, and the instruments have this month been shipped to Germany for analysis of how the hardware held up. The deep ocean can put immense physical stress on the sensor equipment including corrosion and biofouling.

The original news was published by Ocean Networks Canada as: ‘Studying the origins of the universe, under the sea’ on 24 Aug 2023

News

The recovered STRAW pathfinder hardware is back in Germany for analysis

Progress towards creating the first neutrino telescope in the Pacific Ocean took another step forward with the project’s instrumentation being shipped to Germany for pre-launch checks.

An optical module of the STRAW pathfinder experiment is being prepared for transport to Germany at ONC's marine technology center. (Photo: ONC)

Research has shown that the deep ocean is the perfect environment to study neutrinos, which are elusive subatomic particles produced by nuclear reactions in the sun, radioactive decay, and exploding stars. A five-year project has concluded that Cascadia Basin–the deepest site in ONC’s NEPTUNE observatory off west Vancouver Island–is a suitable host location for a large-scale neutrino telescope.

Since 2018, the Pacific Ocean Neutrino Experiment (P-ONE) has been testing Cascadia’s suitability using sophisticated light sensors placed on long mooring strings. Neutrino particles can only be observed by the light they emit when they collide with other particles, making this quiet and dark 2.6 kilometre deep site an ideal location when paired with ONC’s observatory. The sensors have been successfully recording and sending this data to ONC’s Oceans 3.0 data portal, where they are accessible to the project’s international team of scientists.

The three moorings (a 500-metre string and two 150 metre in length) were disconnected and recovered during last month’s summer 2023 #ONCAbyss expedition, and the instruments have this month been shipped to Germany for analysis of how the hardware held up. The deep ocean can put immense physical stress on the sensor equipment including corrosion and biofouling.

The original news was published by Ocean Networks Canada as: ‘Studying the origins of the universe, under the sea’ on 24 Aug 2023