Indian scientists make global mark
MATTER OF PRIDE From collaborating in the experiment with the largest underground atom smasher to coauthoring a paper on the Higgs boson discovery, Indian brains prove their mettle
MUMBAI: In September 2008, when the world’s largest underground atom smasher — built to search for the Higgs boson or God Particle to understand the origin of the universe—was set in motion on the Swiss-France border, it was a moment of triumph for 71 scientists from five Indian institutes collaborating in the experiment.
A month later and 7,500 kilometres away, space scientists at Sriharikota, And hr a Pradesh, cheered as Chan dray an 1, India’s first unmanned mission to the Moon, put the country in a select group to launch lunar missions.
In 2011, the Indian team co-authored a paper on the discovery of the Higgs boson in the Large Hadron Collider (LHC), which led to two physicists winning the Nobel Prize in Physics two years later. And within a year of its launch, Chandrayaan 1 reported the first evidence of water-ice molecules on the Moon’s surface. Over the last decade, India and its scientists have become a visible presence in astrophysical science through their involvement in global experiments, and home-grown missions to the Moon and Mars.
“India is gradually becoming a mature economy, which means we are integrated into the world, can withstand all kinds of problems, and can expand. The same holds true of science and astronomy, where we are becoming mature and thinking confident ly with young people participating in projects; exchange between countries, and exchange between science and industry ,” said AjitKe mb ha vi, vice- president, International Astronomical Union.
Before India’s maiden Moon mission, there were rocket exploration sand satellite missions that focused on the Earth’ s atmosphere. “Space missions before Chandra ya an 1 were looking at the Earth for weather or cloud information, and not necessarily at sciences from astrophysical objects,” said professor Dibyendu Nandi of the Centre for Excellence in Space Sciences India at theKolka ta-based Indian Institute of Science Education and Research. “But in terms of astrophysics missions, Chandrayaan 1was thefirst to go beyond the Earth, followed by a Mars mission and India’s first dedicated astronomy satellite, Astrosat.”
If the low-cost Mars Orbiter Mission – Man gal ya an 1– built by the Indian Space Research Organisation (Isro) in 2014 became the first in the world to reach the red planet on its maiden attempt, Indian scientific institutions and universities were instrumental in developing novel algorithms that in 2015 helped discover gravitational waves predicted by Albert Einstein a century ago. At least37 Indian authors made it to the paper on the discovery of gravitational waves.
“India is developing very rapidly in the fundamental fields of physics and astronomy. The intellectual skills have been in India for a long time, but now India has emerging capability to make advanced technologies for the most fundamental research programs,” professor Barry C Barish, among the trio to win the Nobel Prize in Physics for the discovery of gravitational waves in October, told HT in an email interview.
Unlike the Isro that launched the first sounding rocket in 1963 and the first Indian satellite Aryabhata in 1977, seeds for the 10-year-old success story in basic science experiments were sown in the 1990s with scientists such as PK Iyengar and Govind Swarup convincing the Indian government to work on frontranking national and international experiments.
Swarup, who later became centre- director of the Pu ne-based National Centre for Radio Astrophysics at the Tata Institute of Fundamental Research (TIFR), approached the Department of Atomic Energy( DA E) to fund the Giant Met re wave Radio Telescope( GM RT) at K ho dad, north Pune. Operational since 2000, the GM RT, the world’ s largest low-frequency radio telescope, detected and tracked the landing of a European Space Agency spacecraft on a Mars mission last year.
Scientists said no one in the 1970s and 1980 ss ought government funding for science projects .“Indian science was restricted to small groups working in their laboratories. The GMRT is the first international facility on Indian soil that people from all over the world came to use,” said Somak Raychaud hary, director, Inter-University Centre for Astronomy and Astrophysics, Pu ne. During the same period, Iyengar, a former atomic energy commission chairperson, signed an umbrella agreement with the European Organisation for Nuclear Research (CERN) and India started participating in LHC experiments.
Th eL H Cw as the first mega international science project that became a blueprint because it was the first time that the Department of Science and Technology and DAE jointly funded a project.
“By the mid-1990s, it became clear to people in power or were convinced by scientists that participation in front-ran king experiments is needed if India has to reach a regime of high technology,” said professor Atul Gurtu, formerly with TI FR, and a co-author on the Hig gs bo son discovery paper. This outlook over the last 10 to 15 years paved the way for India to finance and build technology for multinational experiments, and scientific institutes and universities started collaborating on big projects.
Today, India, as an associate CERN member with an annual fee of ~85 crore, has a stronger voice in scientific and finance meetings. Indian industry can bid for tenders and procurements.
Next year will see a ground breaking ceremony for the third gravitational wave detector( LI GO- INDIA ), most likely in Maharashtra, which, when built, will help determine the position of the gravitational wave source.
On space sciences, India will expand its inter-planetary research. In 2020, India will launch its maiden mission to the Sun – Aditya L1 – that will study various aspects of the Sun and space-weather.
“The Sun influences space environment through winds and solar storms which impacts our atmosphere and spacebased technologies such as GPS navigation, telecommunication and earth orbiting satellites ,” said Nan di .“If our mission helps us understand what creates spaceweather, we will be able to protect our technologies that rely on space.”
Perhaps the only biggest basic science experiment that is staring at a 10-year delay is the ~1,583-crore proposed underground India-based Neutrino Observatory (INO) at Tamil Nadu that has got mired in environmental concerns and political controversies. The INO team is looking at And hr a Pradesh as an alternative site for the facility.
“The project is behind schedule, and will affect the speed of getting results. That important science is getting delayed, is disheartening,” said Vivek Datar, project director, INO, TIFR. Scientists said big-ticket science projects have made the field attractive to students .“Two generations ago, no child thought India could do any science and that one had to go abroad ,” said Ray ch aud ha ry .“Today students know that it’ s possible to sit in India and work on projects in Australia or Hawaii, and also build LI GO in India. I’ ve seen the change in my lifetime.”
INDIA AS AN ASSOCIATE CERN MEMBER WITH AN ANNUAL FEE OF ~85 CRORE HAS A STRONGER VOICE IN SCIENTIFIC AND FINANCE MEETINGS; INDIAN INDUSTRY CAN BID FOR TENDERS AND PROCUREMENTS