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STELLAR CHEMISTRY
Giant Telescope on Sea Floor Will Study Neutrinos from Space
by Staff Writers
Perth, Australia (SPX) May 22, 2019

An artist's impression of the KM3NeT telescope. Picture: KM3NeT.

Curtin University researchers are part of an international project that will use a huge underwater neutrino telescope at the bottom of the Mediterranean Sea to help explain some of the most powerful and mysterious events in the universe.

Located at two sites at depths of up to 3,500 meters, the KM3NeT telescope will occupy more than a cubic kilometre of water, and will comprise of hundreds of vertical detection lines anchored to the seabed and held in place by buoys when complete.

Dr. Clancy James, from the Curtin Institute of Radio Astronomy and the International Centre for Radio Astronomy Research (ICRAR), said such a huge volume of water was required to surround the instruments because neutrinos were otherwise difficult to detect.

"Neutrinos very rarely interact, however when a neutrino hits water it generates light, which the KM3NeT telescope is able to detect," Dr. James said.

"The underwater telescope is bombarded by millions of different particles but only neutrinos can pass through the Earth to reach the detector from below so, unlike normal telescopes, it looks down through the Earth at the same sky viewed by upward-facing telescopes in Australia."

Dr. James said KM3NeT needed to be incredibly sensitive because the light detected from neutrino interactions was about as faint as the light from a lightbulb in Sydney as seen from Perth.

"Each line has 18 modules equipped with light sensors along its length and, in the darkness of the deep ocean, these sensors register the faint flashes of a special light that signals the interaction of neutrinos with the seawater," Dr. James said.

"This project will help us answer some of the major questions around particle physics and the nature of our universe, potentially ushering in a new era in neutrino astronomy."

Curtin University formally joined the project in March 2019 and will use radio telescopes such as the Murchison Widefield Array to study the origins of neutrinos seen by KM3NeT.

Dr. James, along with John Curtin Distinguished Professor Steven Tingay, the Executive Director of the Curtin Institute of Radio Astronomy who is also from the Curtin node of the ICRAR, are among hundreds of researchers from more than 50 organisations around the world contributing to the project.


Related Links
Curtin University
Stellar Chemistry, The Universe And All Within It


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STELLAR CHEMISTRY
SKA Consortium completes design of Science Data Processor
Johannesburg, South Africa (SPX) May 10, 2019
An international consortium of computing specialists, led by the University of Cambridge in the United Kingdom, has completed the engineering design work of the Science Data Processor (SDP) for the Square Kilometre Array (SKA) Radio Telescope, to the level required for a Critical Design Review (CDR). The role of the SDP consortium was to design the computing hardware platforms, software, and algorithms needed to process science data into science data products (astronomical images). The SKA SDP wil ... read more

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