astrophysical$5562$ - traduzione in greco
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astrophysical$5562$ - traduzione in greco

OBSERVATIONAL ASTRONOMY THAT BENEFITS FROM THE DIRECT, OR INDIRECT, DETECTION OF NEUTRINOS
Neutrino Astronomy; Astrophysical neutrinos; Astrophysical neutrino
  • The interior of the Earth as we know it.  Currently, our information comes only from seismic data.  Neutrinos would be an independent check on this data
  • The IceCube Neutrino Detector at the South Pole.  The PMTs are under more than a kilometer of ice, and will detect the photons from neutrino interactions within a cubic kilometer of ice
  • An optical module from a neutrino telescope. Neutrino telescopes consist of hundreds to thousands of optical modules distributed over a large volume.
  • The proton-proton fusion chain that occurs within the Sun.  This process is responsible for the majority of the Sun's energy.

astrophysical      
adj. αστροφυσικός

Definizione

astrophysics
¦ plural noun [treated as sing.] the branch of astronomy concerned with the physical nature of stars and other celestial bodies, and the application of the laws and theories of physics to the interpretation of astronomical observations.
Derivatives
astrophysical adjective
astrophysicist noun

Wikipedia

Neutrino astronomy

Neutrino astronomy is the branch of astronomy that observes astronomical objects with neutrino detectors in special observatories. Neutrinos are created as a result of certain types of radioactive decay, nuclear reactions such as those that take place in the Sun or high energy astrophysical phenomena, in nuclear reactors, or when cosmic rays hit atoms in the atmosphere. Neutrinos rarely interact with matter, meaning that it is unlikely for them to scatter along their trajectory, unlike photons. Therefore, neutrinos offer a unique opportunity to observe processes that are inaccessible to optical telescopes, such as reactions in the Sun's core. Neutrinos can also offer a very strong pointing direction compared to charged particle cosmic rays.

Since neutrinos interact weakly, neutrino detectors must have large target masses (often thousands of tons). The detectors also must use shielding and effective software to remove background signal.