Some More Famous Scientist of INDIA

C. R. Rao (1920 - ) C a l y amp u d i R a d h a k r i s h n a R a o wa s b o r n t o C .D. Na i d u a n d A . Laxmikantamma on 10 September 1920 in Huvvina Hadagalli in present day Karnataka. He was the eighth in a family of 10 children. After his father’s retirement, the family settled down in Vishakapatnam in Andhra Pradesh. From his earliest years, Rao had an interest in mathematics. After completing high school he joined the Mrs. A.V.N. College at Vishakapatnam for the Intermediate course. He received his M.A. in Mathematics with first rank in 1940. Rao d e c i d e d t o p u r s u e a r e s e a r c h c a r e e r i n ma t h ema t i c s , b u t wa s d e n i e d a scholarship on the grounds of late submission of the application. He then went to Kolkata for an interview for a job. He did not get the job, but by chance he visited the Indian Statistical Institute, then located in a couple of rooms in the Physics Department of the Presidency College, Kolkata. He applied for a one-year training course at the Institute and was admitted to the Training Section of the Institute from 1 January 1941. In July 1941 he joined the M.A Statistics program of the Calcutta University. By the time he passed the M.A. exam in 1943, winning the gold medal of the University, he had already published some research papers! In 1943 he joined ISI as a technical apprentice, doing research, teaching in the Training Section of the Institute and at Calcutta University and assisting Professor Mahalanobis in editing Sankhya the Indian Journal of Statistics. In 1946 he was deputed to the Cambridge University on a project. While working full time on this, he also worked in the genetic laboratory of R.A. Fisher, the father of modern statistics and completed his Ph.D. under Fisher. By this time Rao had already completed some of the work which carries his name: Cramer-Rao inequality, Rao-Blackwell theorem, Rao’s score test and Rao’s orthogonal arrays. He returned to ISI in 1948 and in 1949 was made a Professor at the very young age of 29. He headed and developed the Research and Training Section of the ISI, and went on to become Director of the ISI. He became the associate editor of the Sankhya in 1964 and became the editor in 1972. He left ISI in 1978 and joined the University of Pittsburgh. In 1988 he moved to the Pennsylvannia State University holding the Eberly Family Chair in Statistics and the Directorship of the Centre for Multivariate Analysis till 2001.  Dr. Rao is a Fellow of the Royal Society of London, and a Member of the Na t iona l Ac ademy of Sc i enc e s , U.S.A. He wa s awa rded the Padma Vibhushan in 2001. The C.R. Rao Award for Statistics was instituted in his honor, to be given once in two years. In 2002 he was awarded the National Medal of Science of the U.S.A. The Advanced Institute of Mathematics, Statistics and Computer Science in the Osmania University Campus has been named after him.

K. Chandrasekharan (1920 -) Komaravolu Chandrasekharan was born on 21 November 1920 in Machilipatnam in modern-day Andhra Pradesh. He attended District Board School in Guntur District, Andhra Pradesh, and then High School at Bapatla, also in Guntur. He then obtained his M.A. in Mathematics from the Presidency C o l l e g e , C h e n n a i a n d w a s a R e s e a r c h S c h o l a r i n t h e D e p a r t m e n t o f Mathematics of the University of Madras during 1940-1943. During 1943-46 he was a part-time Lecturer at Presidency College and obtained his Ph.D. during this time under Ananda Rau, who was with Ramanujan in Cambridge. Chandrasekharan then went to the Institute for Advanced Study, Princeton, U.S.A. In 1949, while he was in Princeton, he was invited by Homi Bhabha to join the School of Ma thema t i c s of the Ta t a Ins t i tut e of Fundament a l Research. An extraordinarily gifted organiser and administrator of science, he transformed the fledgling School of Mathematics of TIFR into a centre of excellence respected the world over. He initiated a very successful programme of recruitment and training of Research Scholars at TIFR. The programme continues to this day along the same lines that he set down. He put to excellent use his contacts with the leading mathematicians of the world, persuading many of them (like L. Schwartz, a Fields medalist, and C.L. Siegel) to visit TIFR and deliver courses of lectures over periods of two months and more. The lecture notes prepared out of these lectures and published by TIFR enjoy a great reputation in the world mathematics community to this day. During 1955-61, he was a member of the Executive Committee of the International Mathematical Union (IMU). He served as the Secretary of IMU during 1961-66 and as President during 1971-74. His initiatives over a long period of 24 years on this Committee were numerous and valued greatly. He served as the Vice President of the International Council of Scientific Unions during 1963-66 and as its Secretary General during 1966-70. He was a member of the Scientific Advisory Committee to the Cabinet, Government of India during 1961-66. He was awarded the Padma Shri in 1959, Shanti Swarup Bhatnagar Award in 1963 and the Ramanujan Medal in 1966. H e w a s r e s p o n s i b l e f o r t h e I M U s p o n s o r i n g t h e I n t e r n a t i o n a l Mathematical Colloquium held every 4 years at the Tata Institute starting 1956. I n 1 9 5 7 o n h i s i n i t i a t i v e , T I F R p u b l i s h e d t h e N o t e b o o k s o f S r i n i v a s a Ramanujan. In the fifties, Chandrasekharan held the editorship of the Journal of the Indian Mathematical Society. Thanks to his abilities at persuading some of the great names in the field to publish there, several great papers appeared in the journal during this period. I n 1 9 6 5 h e l e f t T I F R a n d mo v e d t o E i d g e r o s s i s c h e Te c h n i s c h e Hochschule, Zurich. He worked in the f i e lds of numbe r theory and summabi l i ty. Hi s ma thema t i c a l a chi evement s a r e f i r s t r a t e , but hi s cont r ibut ion to Indi an mathematics has been even greater.

Har Gobind Khorana (1922 - ) Har Gobind Khorana was born in Raipur, Punjab, (now in Pakistan) on 9 January 1922. His father was a patwari, a village agricultural taxation clerk in the British-Indian system of government. Har Gobind did his schooling from the D.A.V. High School in Multan. He received his B.Sc. and M.Sc. degrees from the Punjab University in Lahore. Khorana lived in India until 1945, when the award of a Government of India Fellowship made it possible for him to go to England and he studied for a Ph. D. degree at the University of Liverpool. Khorana spent a postdoctoral year (1948-1949) at the Eidgenössische. Technische Hochschule in Zurich, and then joined Cambridge University, England in 1950, where he worked with Professors G.W. Kenner and Lord A.R. Todd. In 1952 he went to the University of British Columbia, Vancouver, Canada. The British Columbia Research Council offered at that time very little by way of facilities, but there was ‘all the freedom in the world’, to do what the researcher liked to do. He became the Alfred Sloan Professor of Biology and Chemistry at the Massachusetts Institute of Technology in 1970 and is at present an Emeritus Professor at the Department of Biology at MIT. Dr. Har Gobind Khorana shared the Nobel Prize for Medicine and Physiology in 1968 with Marshall Nirenberg and Robert Holley for cracking the genetic code. They established that this code, the biological language common to all living organisms, is spelled out in three-letter words: each set of three nucleotides codes for a specific amino acid. Dr. Khorana was also the f i r s t t o s y n t h e s i z e o l i g o n u c l e o t i d e s ( s t r i n g s o f n u c l e o t i d e s ) . To d a y, oligonucleotides are indispensable tools in biotechnology, widely used in biology labs for sequencing, cloning and genetic engineering. Khorana has won many awards and honors for his achievements, amongst them the Padma Vibhushan, Membership of the National Academy of Sciences, USA as well as a Fellow of the American Association for the Advancement of Science.

G. N. Ramachandran (1922-2001) G. N. Ramachandran was born on 8 October 1922 in Ernakulam, Kerala. Hi s f a the r G. Na r ayana Iye r wa s the pr inc ipa l of Maha r a j a ’s col l ege in Ernakulam. Ramachandran did his intermediate from Maharaja’s college and his B.Sc. (Hons) in Physics from St. Joseph’s College, Tiruchi. In 1942 he joined the Indian Institute of Science (IISc), Bangalore as a student in the Electrical Engineering department. However, under the influence of C.V. Raman, he shifted to Physics. He obtained his M.Sc. and then his Ph.D. in 1947, under Raman’s supervision. He then went to the Cavendish Laboratory, Cambridge and obtained his second Ph.D degree under Prof. Wooster. He returned to India in 1949 and joined IISc as an Assistant Professor.  In 1952, at the young age of 30, he moved to Madras as the Head of the Physics Department at the University of Madras. On the suggestion of J.D. Bernal, the crystallographer and chemist, who visited the University in 1952, he started work on determining the structure of the protein collagen, the fibrous protein found in skin, bone and tendon. Based on the limited data available at the time, in 1954, he proposed, along with Gopinath Kartha, the triple-helix structure for collagen, later revised in the light of new data to the coiled coil s t r u c t u r e f o r b i o m o l e c u l e s . T h i s w a s a f u n d a m e n t a l a d v a n c e i n t h e u n d e r s t a n d i n g o f b i o m o l e c u l a r s t r u c t u r e s . H e a n d h i s c o l l e a g u e s C . Ramakrishnan and V. Sasisekharan went on to develop methods to examine and assess structures of biomolecules, in particular peptides. In 1963, this resulted in the famous Ramachandran map, which is an indispensable tool in the study of molecular structures today. His contributions in the field of X-ray crystallography such as anomalous dispersion, new kinds of Fourier syntheses, and X-ray intensity statistics are also extremely important. His 1971 paper with A.V. Lakshminarayanan on three-dimensional image reconstruction was to have important applications in Computer Assisted Tomography. (The 1979 Nobel Prize in Physiology or Medicine was awarded to A.M. Cormack and Sir G.N. Hounsfield for their work in CAT).  In 1971 Ramachandran returned to Bangalore to set up the Molecular Biophysics Unit at the IISc which is today a major research centre. He was elected Fellow of the Royal Society in 1977 and was awarded the Shanti Swarup Bhatnagar award. In 1999, The International Union of Crystallography awarded him the prestigious Ewald Prize, which is given only once in three years. He was the editor of Current Science between 1950 and 1957.

Harish Chandra (1923-1983) Harish Chandra was born on 11 October 1923 in Kanpur, Uttar Pradesh. He attended school in Kanpur and then the University of Allahabad, where he studied theoretical physics. After obtaining his master’s degree in 1943 he joined the Indian Institute of Science, Bangalore to work further with Homi Bhabha on theoretical physics. Dr. Bhabha arranged for Harish Chandra to go to Cambridge to work for his Ph.D. under the legendary Paul Dirac. In 1947 Dirac visited Princeton for one year and Harish Chandra worked as his assistant during this time. In Princeton he met and was greatly influenced by the great French mathematician Chevalley, giving up physics altogether and taking up mathematics. Harish moved to Columbia University after his year at Princeton.  In 1963, Harish Chandra was invited to become a permanent member of the Institute of Advanced Study at Princeton. He was appointed IBM-von Neumann Professor in 1968. Harish Chandra received many awards in his career. He was a Fellow of both the Indian Academy of Sciences and the Indian National Science Academy. In 1974, he received the Ramanujan Medal from Indian National Science Academy. He was elected a Fellow of the Royal Society and also won the Cole prize from the American Mathematical Society in 1954 for his papers on representations of semisimple Lie algebras and groups. Harish Chandra is quoted as saying that he believed that his lack of background in mathematics was in a way responsible for the novelty of his work:- “I have often pondered over the roles of knowledge or experience, on the one hand, and imagination or intuition, on the other, in the process of discovery. I believe that there is a certain fundamental conflict between the two, and knowledge, by advocating caution, tends to inhibit the flight of imagination. Therefore, a certain naivete, unburdened by conventional wisdom, can sometimes be a positive asset.’’  His profound contributions to the representation theory of Lie groups, harmonic analysis, and related areas left researchers a rich legacy that continues today.

M. K. Vainu Bappu (1927-1982) Manali Kallat Vainu Bappu was born on August 10, 1927 to a senior astronomer in the Nizamiah Observatory, Hyderabad. A brilliant student throughout, Vainu Bappu not only excelled in studies but took active part in debates, sports and other extra curricular activities. However, astronomy to which he was exposed from an early age, became his passion. Being a keen amateur astronomer, even as an undergraduate, he had published papers on variable star observations. After obtaining his Masters degree in Physics from Madras University, Vainu Bappu joined the prestigious Harvard University on a scholarship. Within a few months of his arrival at Harvard, Vainu Bappu discovered a comet. This comet was named Bappu-Bok-Newkirk, after Bappu and his colleagues Bart Bok and Gordon Newkirk who worked out the details of this comet. He completed his Ph.D. in 1952 and joined the Palomar observatory on the prestigious Carnegie Fellowship. There, he and Colin Wilson discovered a relationship between the luminosity of particular kinds of stars and some of their spectral characteristics. This important observation came to be known as the Bappu-Wilson effect and is used to determine the luminosity and distance of these kind of stars.  He returned to India in 1953 and largely through his efforts, he set up the Uttar Pradesh State Observatory in Nainital. In 1960 he left Nainital to take over as the Director of the Kodaikanal Observatory. He modernised the facilities there and it is today an active centre of astronomical research. He however realised that the Kodaikanal Observatory was inadequate for making s t e l l a r o b s e r v a t i o n s a n d s t a r t e d s e a r c h i n g f o r a g o o d s i t e f o r a s t e l l a r observatory. As a result of his efforts, a totally indigenous 2.3 meter telescope was designed, fabricated and installed in Kavalur, Tamil Nadu. Both the telescope and the observatory were named after him when it was commissioned in 1986. He was awarded the Donhoe Comet-Medal (1949) by the Astronomical Society of the Pacific, elected as Honorary Foreign Fellow of the Belgium Ac a d emy o f S c i e n c e s a n d wa s a n Ho n o r a r y Memb e r o f t h e Ame r i c a n A s t r o n o m i c a l S o c i e t y. H e w a s e l e c t e d P r e s i d e n t o f t h e I n t e r n a t i o n a l Astronomical Union in 1979.