One of the most prominent Indian scientists in history, C.V.
Raman was the first Indian person to win the Nobel Prize in science for his
illustrious 1930 discovery, now commonly known as the “Raman Effect”. It is
immensely surprising that Raman used an equipment worth merely Rs.200 to make
this discovery. The Raman Effect is now examined with the help of equipment
worth almost millions of rupees.
Early Life:
Chandrasekhara Venkata Raman was born at Tiruchirapalli in
Tamil Nadu on 7th November 1888 to a physics teacher. Raman was a very sharp
student. After doing his matriculation at 12, he was supposed to go abroad for
higher studies, but after medical examination, a British surgeon suggested
against it. Raman instead attended Presidency College, Madras. After completing
his graduation in 1904, and M.Sc. in Physics in 1907, Raman put through various
significant researches in the field of physics. He studied the diffraction of
light and his thesis on the subject was published in 1906.
Raman was made the Deputy Accountant General in Calcutta in
1907, after a successful Civil Service competitive examination. Very much
occupied due to the job, he still managed to spare his evenings for scientific
research at the laboratory of the Indian Association for Cultivation of
Sciences. On certain occasions, he even spent the entire nights. Such was his
passion that in 1917, he resigned from the position to become the Professor of
Physics at Calcutta University.
Contributions
and Achievements:
On a sea voyage to Europe in 1921, Raman curiously noticed
the blue color of the glaciers and the Mediterranean. He was passionate to
discover the reason of the blue color. Once Raman returned to India, he
performed many experiments regarding the scattering of light from water and
transparent blocks of ice. According to the results, he established the
scientific explanation for the blue color of sea-water and sky.
There is a captivating event that served as the inspiration
for the discovery of the Raman Effect. Raman was busy doing some work on a
December evening in 1927, when his student, K.S. Krishnan, New Delhi, gave him
the news that Professor Compton has won the Nobel Prize on scattering of X-rays.
This led Raman to have some thoughts. He commented that if the Compton Effect
is applicable for X-rays, it must also be true for light. He carried out some
experiments to establish his opinion.
Raman employed monochromatic light from a mercury arc which
penetrated transparent materials and was allowed to fall on a spectrograph to
record its spectrum. During this, Raman detected some new lines in the spectrum
which were later called ‘Raman Lines’. After a few months, Raman put forward
his discovery of ‘Raman Effect’ in a meeting of scientists at Bangalore on
March 16, 1928, for which he won the Nobel Prize in Physics in 1930.
The ‘Raman Effect’ is considered very significant in
analyzing the molecular structure of chemical compounds. After a decade of its
discovery, the structure of about 2000 compounds was studied. Thanks to the
invention of the laser, the ‘Raman Effect’ has proved to be a very useful tool
for scientists.
Some of Raman’s other interests were the physiology of human
vision, the optics of colloids and the electrical and magnetic anisotropy.
Later Life
and Death:
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