If anybody can become a dancer as depicted in the 2013 Bollywood dance drama, Anybody Can Dance (ABCD), directed by choreographer Remo D'Souza, why can’t anybody become an astronomer and make new discoveries? Yes, says Dr Ananda Hota, radio astronomer at the Centre for Excellence in Basic Sciences (University of Mumbai-Department of Atomic Energy) in Mumbai, and he has shown how.

Hota is the founder of a unique citizen science project, RAD@home Astronomy Collaboratory, which trains lay citizens to analyse radio astronomy data from professional telescopes so that they can make discoveries. Members of this project have made discoveries using data from radio telescopes in India and abroad. These discoveries have been announced at scientific meetings of astronomers and even published in peer-reviewed scientific journals.

Any undergraduate science or engineering student or lay person can join the group to get basic training, which is provided over Facebook. Face-to-face training camps are also held in different cities. The group’s activities go under hashtag #ABCDresearch – anybody can do research – and are widely followed. Since 2013, Hota has trained over 100 e-astronomers.

This week, members of this group presented their findings at the 36th meeting of the Astronomical Society of India in Hyderabad on “three intriguing cases of jet-galaxy interaction as laboratory for AGN (Active Galactic Nuclei) feedback in galaxy merger”. Past discoveries from this group include new Speca-like galaxies, episodic radio galaxies, relic-lobe radio galaxies, a few Z- and X-shaped radio galaxies, intriguing cases of jet-galaxy interaction, bent-lobe radio galaxies tracing cosmic accretion onto clusters through filaments.

Radio telescopes gather enormous amount of data and it could take professional astronomers decades to analyse every bit collected. At the same time, this data may contain clues to important objects and events on the cosmos. Therefore, observatories make this data available for use to anyone who is interested. The primary data for the citizen-science project comes from sky surveys done by the Giant Metrewave Radio Telescope (GMRT) of the Tata Institute of Fundamental Research.

“Ours is a unique, zero-infrastructure, zero-funded collaboratory of trained e-astronomers, which has made several new discoveries by analysing GMRT data using open access tools such as NASA Skyview,” Hota explained while speaking to India Science Wire .

“This model possibly can convert the Big Data problem in astronomy into a prospect. Citizen science can contribute to knowledge creation at a never-seen-before speed and in approach. Since it is based on the Internet, it can provide an equal opportunity of academic growth to people in under-developed regions where our optical and radio telescopes are located ,” he pointed out.

Unlike conventional education programmes, those who get involved with RAD@home not only learn but also directly contribute to astronomy research from initial one-week face-to-face interaction. “Citizen science can be particularly useful in discovering certain events where features are fuzzy, which can be detected more efficiently by the human eye than a machine. Radio interferometry images are more complicated than optical and need citizen-scientists to be trained to read them,” pointed out Hota.

The citizen scientist team which presented its findings in Hyderabad included Akanksha Manojkumar Tiwary, Megha Rajoria, Viswajith Govinda Rajan, Avinash Kumar, Sumanta Kumar Sahoo, Lavanya Nemani, Sagar Sethi, Arpita Misra, Mitali Damle, Shilpa Dubal, Karuna Gamre, Pradeepta Mohanty, Anjali Amesh, Gitika Mall, Alakananda Patra, Charitarth Vyas, Aikya Shah, Ankit Vaghasiya, Ankita Das, Ashutosh Sharma, Bhargav Reddy, Debaiudh Das, Devanshu Shrivastava, Dwiti Krushna Das, Joydeep Naskar, Kavil Mehta, Raveena Dandona, Rohith Sai Shashank, Ronaldo Laishram, Sushrut Mane, Sayali Kulkarni, Pratik Dabhade, Sravani Vaddi, Chiranjib Konar.

Twitter handle: @dineshcsharma

India Science Wire

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