Ramanath Cowsik was born in 1940[1] in Nagpur,[7] in the Western Indian state of Maharashtra.[4] He did his schooling in Karnataka which he completed before turning 14 and graduated from Mysore University in 1958,[1] with physics, chemistry and biology as the optional subjects, at the age of 17.[4][7] He continued his master's studies at the Karnatak university in Dharwar,[8] to secure the degree in physics in 1960, aged 19[4] and joined the Atomic Energy Establishment Training School,[9] present day Homi Bhabha National Institute, Trombay where he did a post graduate course.[1][7] He started his career as a member of faculty of the Tata Institute of Fundamental Research (TIFR)[2] in 1961, simultaneously pursuing his doctoral studies to secure a PhD from Bombay University in 1968,[8] researching under the guidance of Professor Yash Pal.[1][2] He taught at TIFR for over forty years, growing over the years as a fellow, a reader, an associate professor, a professor, a senior professor,[7] and reaching the status of a distinguished professor of the institute.[1][2] He also worked as the Director of the Indian Institute of Astrophysics[10] on deputation from TIFR, during the period from 1992 to 2003,[1] where he has been a Vainu Bappu Distinguished Professor.[7] On invitation from P. Buford Price, Cowsik also worked as an assistant professor at the University of California, Berkeley from 1970 to 1973.[4]
Cowsik, who is known to be proficient in languages such as Tamil, Hindi, Kannada, Sanskrit, English, German and French,[4] is married to Sudha, a research instructor and a doctoral degree (PhD) holder, associated with the Department of Biochemistry and Molecular Biophysics of the Washington University in St. Louis.[15] Cowsik has two sons, Sasha and Aditya, and resides in the city of St. Louis.[4]
Legacy
Ram Cowsik has the attributes I most admire in a scientist. Throughout his entire career, he has thought broadly and creatively about unsolved puzzles at the forefront of physics, says P. Buford Price, renowned physicist.[4]
Ramanath Cowsik is known for his theories related to the Big Bang origin of the universe. He argued that, post the Big Bang, gravitationally dominant relicts were formed from the particles with finite rest mass, resulting in the formation of halos of dark matter with galaxies embedded within.[1][2][7][17] He postulated that this would limit the sums of masses of neutrinos,[4] a phenomenon known in the scientific world as the Cowsik-McClelland bound.[18] These theories are said to have explained the velocity dispersion of particles of dark matter and reproduced the luminosity profiles and ratified the rotation curves of galaxies.[1]
Cowsik is credited with the invention of leaky box and nested leaky box models[2][13][19][20] for the observation of optical and infrared wavelength bands of cosmic rays[2] and employing these models, he is known to have established an observatory for optical astronomy in Hanle, Ladakh, at an altitude of 15,000 feet, reported to be the highest observatory in the world.[1][2][17][19] The observatory is controlled remotely from Bangalore and is operational year round.[4] He is involved in experiments related to Grand Unified Theory and attempts to probe violations of the inverse square law of gravity at sub-millimeter scales. His scientific paper on the role of neutrinos was included by the American Physical Society and the Physics Review[21] magazine, in their selection of 1000 most important scientific papers of the century.[1][2][4]
Cowsik has reported contributions towards understanding highly energetic phenomena in astrophysics such as cosmic ray, pulsar, supernova remnant, gamma ray burst, active galactic nucleus and other similar sources powered by accretion flows.[2][4][7][13][19] His studies cover the diffuse non thermal radiations found all over space as well as radiations from discrete astronomical sources.[2] His experiments are known to be interdisciplinary in nature and bridge the gap between universal phenomena and experimental physics.[2][4] He has conducted extensive research on pre-solar grains of aluminum oxide found in meteorites and has devised a methodology to assess the age of the universe from them.[2][7][19]
Ramanath Cowsik is credited with the first detailed calculations on neutrino fluxes generated atmospheric cosmic ray interactions and observations of the same in underground detectors.[19] These findings have been known to have assisted in the discovery of neutrino oscillations at Super-Kamiokande observatory in Japan.[2][19] He is also known to have made the longest half-life measured in the world which related to that of double beta decay of Te-128, as 7.7 x 1024 years.[17][19] He has also conducted studies on finite temperature corrections to the Casimir forces occur at large separations.[2][19] Cowsik has developed a sensitive torsion balance using which he conducted the first laboratory experiment for the so-called fifth force.[7] He is involved in the development of a more sensitive torsion balance for probing the violations of the Inverse-square law of gravity at millimeter scales,[2][7][13]
Cowsik, who has drawn comparison with the renowned physicist, Enrico Fermi for his achievements in theoretical and experimental physics,[4] has published his experiments and observations in several scientific papers[7] published in peer reviewed journals[22][23][24] and ResearchGate, an online repository has listed 193 of them.[23] He has attended several seminars and conferences and has delivered keynote addresses[25] on astrophysics and the relationship between religion and science.[4] He has edited three books,[7] including "Cosmic Pathways", a collection of essays in physics and astrophysics.[26] He has also assisted other scientists in ratifying their experiments by acting as a reference point; his involvement in the OPERA experiment, a CERN, Geneva and the Laboratori Nazionali del Gran Sasso, Gran Sasso collaboration was one such instance.[27]