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Key Points

Gauhati University has achieved a remarkable milestone in Indian scientific research by becoming the first institution to conduct experiments using the VECC Superconducting Cyclotron. The advanced machine can accelerate particles to energies between 400-500 million electron volts, far exceeding other Indian research facilities. Led by Prof Kushal Kalita, the groundbreaking experiment explores nuclear fission and atomic behavior at unprecedented energy levels. This achievement opens new frontiers for collaborative research and deeper understanding of atomic physics in India.

Key Points: Gauhati University Pioneers VECC Superconducting Cyclotron Experiments

  • First Indian university to use advanced 500 MeV cyclotron
  • Breakthrough in nuclear physics research capabilities
  • Explores atomic behavior at extreme energies
  • Collaboration between Gauhati University and VECC
2 min read

Gauhati University becomes first in India to pioneer experiments with VECC's superconducting cyclotron

First Indian university to conduct groundbreaking nuclear physics research using advanced 500 MeV cyclotron technology

"Using the VECC Superconducting Cyclotron, we can study how atoms behave in ways we couldn't before - Prof Nani Gopal Mahanta"

Guwahati, June 9

Gauhati University has become the first institution in India to conduct experiments using the recently commissioned Superconducting Cyclotron at the Variable Energy Cyclotron Centre (VECC) in Kolkata, marking a significant development in Indian nuclear physics research.

The Variable Energy Cyclotron Centre (VECC) Superconducting Cyclotron is like a high-speed ride for tiny particles, such as protons or ions.

It uses strong magnets and electric currents to spin these particles to incredibly high speeds, reaching energies between 400 and 500 million electron volts (MeV). This is much more powerful than other similar machines in India, which can only reach up to 250 MeV. By speeding up particles to such high energies, scientists can study how the tiniest building blocks of atoms behave in extreme conditions, helping us learn more about how the universe works.

Other facilities in India, like those at the Tata Institute of Fundamental Research (TIFR) in Mumbai and the Inter University Accelerator Centre (IUAC) in New Delhi, can only work with lower energies, up to 250 MeV.

The VECC Cyclotron's higher energy range allows scientists to explore new areas of nuclear physics, such as how atoms split apart in a process called nuclear fission.

The experiment, which took place over two months, was led by Prof Kushal Kalita from the Department of Physics, Gauhati University along with his PhD students, and in collaboration with Dr TK Ghosh and Amit Sen from VECC. Their work focused on understanding how atoms split at these high energies, adding valuable knowledge to nuclear physics.

Prof Nani Gopal Mahanta, Vice Chancellor of Gauhati University, praised the achievement and said, "Using the VECC Superconducting Cyclotron, which can reach energies up to 500 MeV, we can study how atoms behave in ways we couldn't before. This experiment is a big step forward, and Gauhati University is proud to be part of it."

Prof Kalita said, "Working with VECC has allowed us to explore parts of nuclear fission that other Indian facilities can't study because of their lower energy limits."

This successful experiment paves the way for more exciting discoveries in nuclear physics in India and opens doors for future collaborations between universities and research centres.

- ANI

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Reader Comments

A
Arjun P.
This is fantastic news for Indian science! Northeast India often gets overlooked in research funding, so seeing Gauhati University lead such groundbreaking work makes me proud. Hope this inspires more students from Assam to pursue nuclear physics. Jai Hind! 🇮🇳
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Priya M.
While this is impressive, I wonder how this research will benefit common people? The article mentions studying atomic behavior but doesn't explain practical applications. Hope our scientists can also focus on medical or energy applications that directly help society.
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Rahul S.
As an engineering student, this excites me! India needs more high-tech research facilities like this. Maybe next we'll have our own Large Hadron Collider? Kudos to Prof Kalita and team for putting Gauhati University on the global science map.
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Meena K.
So happy to see research excellence coming from Northeast India! We need more such success stories from beyond the IITs. This shows what regional universities can achieve with proper funding and collaboration. More power to Gauhati University!
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Sanjay D.
The article mentions this is more powerful than TIFR's facilities. Does this mean Kolkata is now the nuclear physics capital of India? Healthy competition between research centers is good for science. Hope Mumbai and Delhi teams rise to the challenge!
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Neha R.
While celebrating this achievement, we must ask - are we doing enough to retain these brilliant minds in India? Many top researchers leave for foreign labs. Need better research ecosystem and salaries to stop brain drain. Still, great work team! 👏

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