Raman Research Institute

Last updated

Raman Research Institute
Raman Research Institute Logo.png
Type Research Institution
Established1948
Affiliation Jawaharlal Nehru University
DirectorTarun Souradeep [1]
Students90
Location
Bangalore
,
Karnataka
,
India

13°0′46.51″N77°34′51.78″E / 13.0129194°N 77.5810500°E / 13.0129194; 77.5810500
CampusUrban
Website www.rri.res.in
Raman Tree Raman Tree.jpg
Raman Tree

The Raman Research Institute (RRI) is an institute for scientific research located in Bengaluru, India. It was founded by Nobel laureate Sir C. V. Raman in 1948. Although it began as an institute privately owned by C. V. Raman, it became an autonomous institute in 1972, receiving funds from the Department of Science and Technology of the Government of India. [2]

Contents

History

2023 Indian stamp, featuring C. V. Raman and dedicated to the 75th anniversary of the institute Raman Research Institute 2023 stamp of India.jpg
2023 Indian stamp, featuring C. V. Raman and dedicated to the 75th anniversary of the institute

Before Raman considered founding a research institute, he had approached the former Maharaja of Mysore seeking land to build office and conference premises for the Indian Academy of Sciences (IAS). The Maharaja acceded to Raman's request and a 10-acre (40,000 m2) plot of land in the Malleshwaram suburb of Bengaluru was allotted to the Indian Academy of Sciences in 1934. However, the Academy (then headed by Raman) made no use of the land for seven years. According to the terms of the deal with the Maharaja, the land could be to another use by the government of Mysore if it still remained unused at the end of 1941.

Raman, as President of the IAS, held an extraordinary meeting of the academy in 1941, and proposed that a research institute (to be named after himself) be built on the land. The proposal was approved and a foundational stone was laid on the ground, signifying that the land was now in use. However, it was not until 1948 that the institute was opened. Raman had planned the institute much before he retired as the head of the Physics Department of the Indian Institute of Science. His idea had been to move directly to his newly founded institute when he retired from IISc. This happened in 1948 - Thus, the Raman Research Institute began under the umbrella of the Indian Academy of Sciences, and both under Raman's leadership. [3]

Raman had an apparent hatred for writing project reports or having to give periodic status reports to project funders. For this reason, Raman refused to accept any funds from the Indian government and other sources. "He was of the firm belief that science could not be done that way,” said Prof. N. V Madhusudana, Dean of Research at the RRI and a liquid crystal scientist. As a Nobel Laureate, Raman enjoyed significant respect in Indian public life and was able to raise funds for the institute through private donations and fund-raisers without state involvement. Unashamed of his fundraising, Raman declared: "Our greatest men were beggars—the Buddha, Sankara and Mahatma Gandhi." Raman also found the scrutiny the Government was taking in funding scientific research in the 1950s and 1960s insufficient. [4]

"Till Raman's death, this was his private research institute. He had a very small group of research students working with him and very few administrative staff”, said Prof. Madhusudana.[ citation needed ]

Raman was clear that after his death, the Presidency of the IAS and Director of the RRI could pass to different individuals. Equally the Raman Research Institute should not remain subordinate to the Indian Academy of Sciences but enjoy autonomy and a distinct statutory identity of its own. Just before his death, Raman established a framework for the running of the institute, separating it completely from the Indian Academy of Sciences and giving it statutory autonomy. The Institute adopted the change immediately after Raman's death in 1971 with the consent of the government, and stepped into a new era as a statutory body, functioning since 1972 on annual grants received from the Department of Science and Technology (DST), Government of India. [5]

Raman Research Institute Raman Research Institute front view, Bengaluru, India (2014).jpg
Raman Research Institute

Achievements

Despite budgetary and infrastructural constraints, scientists working under Raman carried out some ground-breaking work. For instance, S. Pancharatnam, who joined the institute in 1954, discovered a fundamental quantum optic effect. This work, according to Jayaraman, was "the most outstanding original piece of research that came out of RRI at that time."

This discovery proved for the first time that geometric phase exists in optics. But this work was not known to the world until similar discovery was made by scientists elsewhere about two decades later. Subsequently, RRI could convincingly prove that Pancharatnam discovered this long ago and today "this phase is called Pancharatnam Phase world over," said Madhusudana. Pancharatnam unfortunately did not live long enough to see this and his career was cut short when he died in 1969 while in Oxford.

Collections

The institute also houses Raman's prized collection of gems, crystals, minerals, and rock specimens from all over the world. Raman, who was fascinated by the colours of the biological kingdom, also had a wide collection of stuffed birds, beetles, and butterflies in the museum. Raman is reputed to have taken much pride in showing his precious collections to visitors to the institute. During Raman's time, many celebrated scientists from other countries paid a visit to the institute. Among them were: J. D. Bernal, E. C. Bullard, Patrick Blackett, Charles Galton Darwin, Paul Dirac, G. Gamow, J. B. S. Haldane, Linus Pauling, C. F. Powell, L. Rosenfeld, G. Wentzel and Norbert Wiener.

Research areas

The main areas of research are: [6] [7]

Soft condensed matter

Liquid crystals

One of the current research priority areas of the institute is liquid crystals. [8] This has been an active area of research at the Raman Research Institute for nearly three decades. The research programme covers a broad spectrum of activities ranging from the synthesis of new liquid crystalline materials to display electronics. Discoveries of the columnar phase formed by disc-like molecules and pressure induced mesomorphism are two of the early significant contributions made by the liquid crystal group. "Out of 36 liquid crystal materials discovered in the world, three were from this institute," Prof. Madhusudana has stated. Among them were two new liquid crystalline phases, namely the undulating twist grain boundary C phase and the biaxial smectic A phase.

Techniques developed for driving passive matrix liquid crystal displays at the institute are now being widely used. In recent years the liquid crystal group has been working on electrochemical aspects of surface science and on other soft materials like surfactants, polymers, and on the physics of biological systems.

Astronomy and Astrophysics

Astronomy and astrophysics have been another strong area of research for the RRI. [9] According to Prof. Madhusudana, this department has the highest number of faculty and research students of the institute. In the first two decades of the twenty-first century, it has been carrying out observational programmes in radio astronomy, covering almost the entire radio spectrum. Besides having a millimetrewave telescope of 10.4 metre diameter on the campus, the RRI has set up the Gauribidanur Radio Observatory, a decametrewave Radio telescope at Gauribidanur, about 80 kilometres from Bengaluru. This has been done jointly with the Indian Institute of Astrophysics (IIA), Bengaluru. This is one of the few largest telescopes that operate at the wavelength of 10 metre and is being used by RRI scientists to study radio emission from various types of celestial objects such as the sun, Jupiter and similar radio sources in Milky Way and other galaxies.

Other radio telescopes being used by RRI scientists are the Ooty Radio Telescope, at Ooty, and Giant Metrewave Radio Telescope (GMRT), near Pune, both set up by the Tata Institute of Fundamental Research (TIFR). RRI also played an active role in building the Mauritius Radio Telescope, a low-frequency radio telescope in Mauritius jointly with the University of Mauritius and IIA.

The major astronomical investigations pursued at the Institute can be broadly classified into the following categories: (i) Neutron Stars and Pulsars; (ii) cosmology; (iii) Diffuse matter in space; and (iv) Radio Sky Surveys.

Theoretical physics

Activity in theoretical physics at the institute has focused on relativity and gravity, quantum theory, and optics. [10] The current activity in gravitation concentrates on two themes, gravitational radiation and quantum gravity. Gravitation is known to be the weakest of all known forces of nature, but it dominates all structure and motion on the astronomical scale because of its attractive universality, its long range and the fact that matter on the large scale is essentially neutral. The correct theory of gravitation is now believed to be Einstein's General Theory of Relativity. One of the fundamental predictions of General Theory of Relativity is that of gravitational waves — waves of distortion of spacetime itself - propagating at a finite speed of light. This replaces the Newtonian gravitations forces which was instantaneous. Such waves are expected to be emitted when, for example, two massive inspiralling stars tend to coalesce under their mutual gravitations attraction. Accurate calculation of this gravitational radiation — its waveform — has been one of the major research programmes of the theoretical physics group at the institute. Their work is expected to be a crucial input towards its eventual detection.

Another major activity of the theoretical physics group has been in studying the propagation of light waves in certain types of liquid crystals and minerals and their associated polarization phenomenon. The RRI has been a pioneer in this field of study, initiated by one of Raman's research students, Pancharatnam.

Light and Matter Physics

[11]

Quantum Information and Computing (QuIC) laboratory

During June 2020, QuIC was successful in developing the toolkit and ran a simulation that helps in safe quantum key distribution between devices. In February 2021, a team of researchers under the guidance of Prof. Urbasi Sinha in collaboration with Prof. Barry Sanders from the University of Calgary demonstrated the distribution of quantum key using free space between two buildings at a distance of 50 meters that used quantum entanglement based quantum-key distribution technique. It is part of the Quantum Experiments using Satellite Technology (QuEST) project supported by Indian Space Research Organization (ISRO). This work is part of the National Mission on Quantum Technologies and Applications. [12] [13] One of the objectives is to develop secure encrypted communication that are harder to break even with ongoing advances in computing technology. Prof. Urbasi Sinha and her team at RRI have been working on Quantum cryptography since 2017. [14] [15] [16]

Related Research Articles

<span class="mw-page-title-main">Venkatraman Radhakrishnan</span> Indian space scientist

Venkataraman Radhakrishnan was an Indian space scientist and Royal Swedish Academy of Sciences member. He retired from his career as professor emeritus of the Raman Research Institute in Bangalore, India, of which he had previously been director from 1972 to 1994 and which is named after his father. He served on various committees in various capacities including as the vice president of the International Astronomical Union during 1988–1994. He was also a Foreign Fellow of the Royal Swedish Academy of Sciences and the U.S. National Academy of Sciences. He was an Associate of the Royal Astronomical Society and a Fellow of the Indian Academy of Sciences, Bangalore.

<span class="mw-page-title-main">Max Planck Institute for Gravitational Physics</span>

The Max Planck Institute for Gravitational Physics is a Max Planck Institute whose research is aimed at investigating Einstein's theory of relativity and beyond: Mathematics, quantum gravity, astrophysical relativity, and gravitational-wave astronomy. The institute was founded in 1995 and is located in the Potsdam Science Park in Golm, Potsdam and in Hannover where it closely collaborates with the Leibniz University Hannover. Both the Potsdam and the Hannover parts of the institute are organized in three research departments and host a number of independent research groups.

<span class="mw-page-title-main">Indian Institute of Astrophysics</span> Research institute in Bangalore, India

The Indian Institute of Astrophysics (IIA), with its headquarters in Bengaluru, is an autonomous research institute wholly funded by the Department of Science and Technology, Government of India. IIA conducts research primarily in the areas of astronomy, astrophysics and related fields.

<span class="mw-page-title-main">Physical Research Laboratory</span> Indian space research institute

The Physical Research Laboratory is a National Research Institute for space and allied sciences, supported mainly by Department of Space, Government of India. This research laboratory has ongoing research programmes in astronomy and astrophysics, atmospheric sciences and aeronomy, planetary and geosciences, Earth sciences, Solar System studies and theoretical physics. It also manages the Udaipur Solar Observatory and Mount Abu InfraRed Observatory. The PRL is located in Ahmedabad.

Rappal Sangameswaran Krishnan was an Indian experimental physicist and scientist. He was the Head of the department of Physics at the Indian Institute of Science and the vice chancellor of the University of Kerala. He is known for his pioneering researches on colloid optics and a discovery which is now known as Krishnan Effect. He was a Fellow of the Indian Academy of Sciences, Indian National Science Academy and the Institute of Physics, London and a recipient of the C. V. Raman Prize. 25 students were guided by RSKrishnan for Ph D. Dr T N Vasudevan was the 25th. Prof Vasudevan retired from Physics Dept, Calicut University died on 2 August 2021

<span class="mw-page-title-main">Thanu Padmanabhan</span> Indian physicist and cosmologist (1957–2021)

Thanu Padmanabhan was an Indian theoretical physicist and cosmologist whose research spanned a wide variety of topics in gravitation, structure formation in the universe and quantum gravity. He published nearly 300 papers and reviews in international journals and ten books in these areas. He made several contributions related to the analysis and modelling of dark energy in the universe and the interpretation of gravity as an emergent phenomenon. He was a Distinguished Professor at the Inter-University Centre for Astronomy and Astrophysics (IUCAA) at Pune, India.

Rajaram Nityananda is an Indian physicist who works on Solid State Physics, Liquid Crystals, Astronomical Optics, Image Processing, & Gravitational Dynamics. He currently works as professor at Azim Premji University Bengaluru. He was formerly the Director of the National Centre for Radio Astrophysics and also Tata Institute of Fundamental Research (TIFR) Centre for Interdisciplinary Sciences in Hyderabad. He served on the Physical Sciences jury for the Infosys Prize from 2015 to 2017. He also serves as an Associate Editor of the Journal of Astrophysics & Astronomy, published by the Indian Academy of Sciences. He also serves as the chief editor for Resonance Journal for Science Education published by Indian Academy of Sciences. He is also the Chairman of the Board of Directors of the National Institute of Technology, Tiruchirappalli and Chennai Mathematical Institute. He is currently serving as a faculty member at the Indian Institute of Science Education and Research, Pune. Previously he worked at Raman Research Institute from 1975 to 2000.

<span class="mw-page-title-main">S. Pancharatnam</span> Indian physicist

Shivaramakrishnan Pancharatnam was an Indian physicist who did significant work in the field of optics. He is noted for his discovery of a type of geometric phase sometimes known as Pancharatnam phase for polarized beams passing through crystals.

<span class="mw-page-title-main">Sivaramakrishna Chandrasekhar</span> Indian physicist (1930-2004)

Sivaramakrishna Chandrasekhar FNA, FRS was an Indian physicist who won the Royal Medal in 1994. He was the founder-president of the International Liquid Crystal Society.

<span class="mw-page-title-main">S. Ramaseshan</span> Indian scientist

Sivaraj Ramseshan was an Indian scientist known for his work in the field of crystallography. Ramaseshan served as director of the Indian Institute of Science and was awarded the Padma Bhushan. Ramaseshan is the nephew of Indian scientist and Nobel laureate Sir C. V. Raman and cousin of Subramanyan Chandrasekhar.

<span class="mw-page-title-main">Gauribidanur Radio Observatory</span> Observatory

The Gauribidanur Radio Observatory is a radio telescope observatory located at Gauribidanur, near Bengaluru. It is operated jointly by Raman Research Institute and the Indian Institute of Astrophysics. The observatory has been in operation since 1976.

Abhishek Dhar is an Indian physicist specialising in statistical physics and condensed matter physics. He is a professor at the International Centre for Theoretical Sciences, Bangalore.

Aninda Sinha is an Indian theoretical physicist working as a professor at Center for High Energy Physics, Indian Institute of Science in Bangalore, India.

The Chandrasekhar family is a distinguished Indian intellectual family, several of whose members achieved eminence, notably in the field of physics. Two members of the family, Sir C. V. Raman and his nephew, Subrahmanyan Chandrasekhar, were Nobel laureates in physics.

Narendra Kumar was an Indian theoretical physicist and a Homi Bhaba Distinguished Professor of the Department of Atomic Energy at Raman Research Institute. He was also an honorary professor at Jawaharlal Nehru Centre for Advanced Scientific Research.

<span class="mw-page-title-main">N. V. Madhusudana</span> Indian physicist (born 1944)

Nelamangala Vedavyasachar Madhusudana is an Indian physicist and an emeritus scientist at Raman Research Institute. Known for his research on liquid crystals, Madhusudhana is an elected fellow of Indian Academy of Sciences and Indian National Science Academy. The Council of Scientific and Industrial Research, the apex agency of the Government of India for scientific research, awarded him the Shanti Swarup Bhatnagar Prize for Science and Technology, one of the highest Indian science awards, for his contributions to physical sciences in 1989.

Ganesan Srinivasan is an Indian physicist specializing in the fields of condensed matter physics, astrophysics and statistical physics. He is a visiting professor of the Indian Institute of Astrophysics and a former research scientist in the Raman Research Institute. He is also a current member of the High Energy Phenomena and Fundamental Physics and the Galaxies and Cosmology Divisions of the IAU.

<span class="mw-page-title-main">Anil Kumar (physicist)</span> Indian experimental physicist (1941-2024)

Anil Kumar was an Indian experimental physicist known for his work in the field of nuclear magnetic resonance spectroscopy. He was a professor at the Indian Institute of Science in Bengaluru.

<span class="mw-page-title-main">University College of Science, Technology and Agriculture</span> Science College, Kolkata, West Bengal

The University College of Science, Technology and Agriculture are two of five main campuses of the University of Calcutta (CU). The college served as the cradle of Indian sciences by winning the Nobel Prize in Physics in 1930 and many fellowships of the Royal Society London.

<span class="mw-page-title-main">Pankaj Joshi (physicist)</span> Indian physicist and cosmologist

Pankaj S. Joshi is an Indian astrophysicist and cosmologist whose research is mainly focused on areas of gravitational collapse and spacetime singularity. He has published more than 225 research papers in national and international journals, and books and monographs on the subject. Currently, he is a Distinguished Professor of Physics, and founding director of the International Center for Space and Cosmology at Ahmedabad University.

References

  1. "People". www.rri.res.in. Archived from the original on 3 November 2021. Retrieved 14 August 2023.
  2. Srikanth, B. R. (28 February 2017). "No Raman effect: How his dream died a quiet death". Deccan Chronicle. Retrieved 1 September 2018.
  3. "Raman Research Institute, Bangalore". www.dst.gov.in.
  4. Venkataraman, G. (1995). "The Final Years". Raman and his effect. Hyderabad, India: Universities Press. ISBN   81-7371-008-2. OCLC   36886428.
  5. "Raman Research Institute opens admission for PhD programme : Notification". indiatoday.intoday.in. Retrieved 30 October 2017.
  6. "Raman_Research_Institute".
  7. "SRO and Raman Research Institute to develop quantum technologies for ISRO's satellites".
  8. "Raman_Research_Institute".
  9. "Raman_Research_Institute".
  10. "Raman_Research_Institute".
  11. "Raman_Research_Institute".
  12. "Budget 2020 announces Rs 8000 cr National Mission on Quantum Technologies & Applications". Ministry of Science and Technology. DST. Retrieved 22 March 2021.
  13. "Budget 2020 | ₹8,000 crore outlay for national mission on quantum technology". The Hindu. PTI. 1 February 2020. ISSN   0971-751X . Retrieved 22 March 2021.
  14. Goled, Shraddha (24 February 2021). "Raman Research Institute Achieves Breakthrough In Quantum Communication". Analytics India Magazine. Retrieved 22 March 2021.
  15. "RRI comes up with simulation toolkit to ensure safety in secure quantum communication platforms". Press Trust of India. Retrieved 22 March 2021.
  16. Kadidal, Akhil (23 February 2021). "Bengaluru scientists make quantum technology breakthrough". Deccan Herald. Retrieved 22 March 2021.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.