Indian Neutrino Observatory

Indian Neutrino Observatory

Nobel laureate Takaaki Kajita has voiced support for India based Neutrino Lab.

  • Aims to establish an underground laboratory in India for high-energy and nuclear physics research without relying on accelerators.
  • Location: site spans across Kerala and Tamil Nadu.
  • Funded by the Department of Atomic Energy (DAE) and the Department of Science and Technology (DST).
  • Components of the Project:
    • Underground Laboratory: Located at Bodi West Hills.
    • Magnetized Iron Calorimeter (ICAL) detector. When completed, ICAL will feature the world’s largest magnet.
    • Establishing the Inter Institutional Centre for High Energy Physics (IICHEP) at Madurai.
  • Significance of the South Indian Location
    • Latitude Advantage: Most existing neutrino detectors are situated at latitudes above 35 degrees.
    • The INO, located close to the Equator at nearly 8 degrees latitude in South India, allows for comprehensive neutrino astronomy searches, covering the entire celestial sky.
    • Facilitates the study of solar neutrinos as they pass through the Earth’s core.
Global Neutrino ObservatoriesLocation
SadburyCanada
Super KamiokandeJapan
Gran Sasso MountainsItaly
Soudan minesUSA
KATRIN experimentGermany
Daya Bay Reactor Neutrino ExperimentHonk Kong
 IceCube Neutrino ObservatoryAmundsen–Scott South Pole Station in Antarctica
  • A neutrino is one of the fundamental particles.
  • Flavors of Neutrinos: come sin 3 types, or “flavors”:
    • Electron Neutrino (νe)
    • Muon Neutrino (νμ)
    • Tau Neutrino (ντ)
  • Properties of Neutrinos
    • Lepton Family: belong to the lepton family, similar to electrons.
    • Mass: are the lightest of all subatomic particles with mass.
    • Electrical Charge: are electrically neutral.
  • Interaction with Matter:
    • Interact with matter via the weak force.
    • The weak force’s minimal strength makes matter almost transparent to neutrinos.
  • Oscillation: Neutrinos mix and oscillate between different species as they travel through space.
  • Sources of Neutrinos:
    • Stars: produced in the core of stars, including our Sun, through nuclear fusion and decay processes.
    • Exploding Stars: Supernovae produce a vast number of neutrinos.
    • Cosmic Rays: Interactions of cosmic rays with the Earth’s atmosphere and other materials produce neutrinos.
  • Decay:
    • Heavy Particle Decay: When heavy particles decay, they often produce neutrinos.
    • Natural Radioactivity: Certain radioactive materials emit neutrinos during their decay processes.
  • Relic Neutrinos: These are remnants from the early universe, dating back to the Big Bang.

Source:
The Hindu


Previous Year Question

In the context of modern scientific research, consider the following statements about ‘IceCube’, a particle detector located at South Pole, which was recently in the news:
It is the world’s largest neutrino detector, encompassing a cubic kilometre of ice.
It is a powerful telescope to search for dark matter.
It is buried deep in the ice.
Which of the statements given above are correct?

[UPSC Civil Services Exam – 2015 Prelims]

(a) 1 only
(b) 2 and 3
(c) 1 and 3
(d) 1, 2 and 3

Answer: (d)


Practice Question

Consider the following statements:

  1. Neutrinos are not found naturally
  2. Neutrinos interact with matter via the weak force.

Which of the statements given above is/are correct?

 
 
 
 

Question 1 of 1

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