Agarwal Quantum Optics Pdf
Miqueo Snyder
Professor Agarwal received M.S. from Banaras Hindu University in 1966, and a Ph.D. from the University of Rochester in 1969. He specializes primarily in quantum optics and broadly in quantum physics. The theoretical work focuses on quantum effects in hybrid systems; quantum phase transitions and collective effects in cavities driven by squeezed light; Frohlich condensates; coupling of quantum emitters to meta materials; chiral quantum systems. The experimental effort based on super-resolution microscopy, quantum sensing and is focused towards bio-photonics applications.
In the last decade many important advances have taken place in the field of quantum optics, with numerous potential applications. Ideal for graduate courses on quantum optics, this textbook provides an up-to-date account of the basic principles of the subject. Focusing on applications of quantum optics, the textbook covers recent developments such as engineering of quantum states, quantum optics on a chip, nano-mechanical mirrors, quantum entanglement, quantum metrology, spin squeezing, control of decoherence and many other key topics. Readers are guided through the principles of quantum optics and their uses in a wide variety of areas including quantum information science and quantum mechanics. The textbook features end-of-chapter exercises with solutions available for instructors at www.cambridge.org/9781107006409. It is invaluable to both graduate students and researchers in physics and photonics, quantum information science and quantum communications.
Girish S. Agarwal, Fellow of the Royal Society UK,[1] (born 7 July 1946)[2] is a theoretical physicist. He is currently at the Texas A & M University with affiliations to the Departments of Biological and Agricultural Engineering, Physics and Astronomy, and the Institute for Quantum Science and Engineering.[3] Earlier he worked as Noble Foundation Chair and the Regents Professor at the Oklahoma State University.[3] He is a recognized leader in the field of quantum optics and also has made major contributions to the fields of nonlinear optics, nanophotonics and plasmonics.[4] In 2013 he published the textbook "Quantum Optics",[5] covering a wide range of recent developments in the field, which has been well received by the community.[6]
Born in Bareilly, India, Agarwal studied physics at the Gorakhpur University, Gorakhpur, India, (BSc in 1964)[3] and Banaras Hindu University in Varanasi, India, (MSc in 1966).[3] In 1969, he received his PhD from the University of Rochester, USA, followed by post-doctoral appointments at the University of Rochester, the University of Stuttgart, Germany, and The Tata Institute of Fundamental Research, Mumbai, India.[3] In 1974, at the age of 28, he published his first monograph "Quantum Statistical Theories of Spontaneous Emission and their Relation to other Approaches" at Springer.[7] This book on light-matter interaction and spontaneous decay has since been a standard reference for quantum optics researchers worldwide.
After a few years at the Tata Institute of Fundamental Research and the Institute of Science, Mumbai, India, he was appointed in 1977 full professor at the University of Hyderabad, India, where he had the major responsibility to set up the School of Physics.[3] In 1995, Girish S. Agarwal was appointed Director and Distinguished Scientist of the Physical Research Laboratory (PRL), Ahmedabad, India.[3] From 1995 - 2000 he served additionally as Honorary Professor at the Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India, and from 2001 - 2005 held the Einstein Centenary Research Professorship of the Indian National Science Academy. Numerous guest professorships have taken him to the major centers of optics and quantum optics throughout the world, including the University of Rochester, Texas A & M University, College Station, the University of Colorado, Boulder, the Max-Planck Institute for Quantum Optics, Garching, Germany, the Max-Planck Institute for the Science of Light, Erlangen, Germany, the Universities of Essen, Ulm, and Erlangen, Germany, the Technical University of Vienna, Austria, and the University of Manchester, UK.[3]
As a scientist he served the international optics and quantum optics community by organizing schools and symposia, e.g., at the International Center for Theoretical Physics (ICTP), Trieste, Italy, for the benefit of the scientists from third world countries. He also spearheaded the efforts of the Indian Government's Department of Science and Technology to build up the infrastructure in the Physics Departments of Indian Universities. He also has served on the editorial board of various leading journals in optics and quantum optics, including Physical Review A.
Girish S. Agarwal has received awards for his achievements in the field of optics and quantum optics.[3] This includes the Humboldt Research Award, Germany (1997),[8] the Max-Born Award of the Optical Society of America, USA (1988),[9] the Einstein Medal of the Optical and Quantum Electronics Society, USA (1994), The World Academy of Sciences Prize in Physics (1994),[10] the Shanti Swaroop Bhatnagar Award in Physical Sciences by the Government of India (1982) the Honoris causa of the University of Liege, Belgium (2007), and of the University of Hyderabad, India (2011), the Charles Hard Townes Award (2022), an Elected Fellow of The World Academy of Sciences (1997), an Elected Fellow of the Indian National Science Academy, New Delhi (1985),[11] an Elected Fellow of the Optical Society of America (1986), an Elected Fellow of the Indian Academy of Sciences, Bangalore (1981), and an Elected Fellow of the American Physical Society (1981).[12] He was invited to the Sir JC Bose Chair at the Indian Institute of Science Education and Research (IISER), Pune, India, and the JRD Tata Chair at The Tata Institute of Fundamental Research, Mumbai, India. In 2012 he was recognized by the Oklahoma State University by the "Eminent Faculty Award".
Professor Agarwal has been a world leader in quantum optics. His scientific contributions provided new directions of research in quantum optics. He laid the foundations for optical resonance and nonlinear optical phenomena in partially coherent fields; quantum electrodynamic phenomena at surfaces; vacuum Rabi splittings in high Q-cavities; radiative decay of auto-ionizing states in the presence of intense laser fields and the control of the efficiency of nonlinear optical processes.
During his career, he has published more than 500 papers in top international journals, including review articles and a research monograph. He serves on the editorial boards of many international journals.
Girish S. Agarwal received his MS degree from Banaras Hindu University, India and his PhD from the University of Rochester, USA. He is currently a Distinguished University Professor at the Texas A&M University. He also holds The INFOSYS Foundation Chair at the Indian Institute of Science and held J R D TATA Chair at The Tata Institute of Fundamental Research and Einstein Professorship, Indian National Science Academy.
Agarwal is an influential physicist with magisterial works in quantum optics. A key part of his work involved studying the non-classical properties of light, and how this light interacts with atoms leading to nonclassical states like CAT states of many qubit systems. He has several firsts to his credit - development of quantum statistical framework for studying cooperative effects like superradiance; fluctuation dissipation theorems for nonequilibrium systems; quantum electrodynamics with anisotropic vacuum; surface excitation produced enhancement of QED effects; enhancement of the nonlinear optical effects and control of phase matching with control electromagnetic fields; and sample size dependence of the vacuum Rabi splittings.
Quantum Optics is a branch of physics that studies the behavior of light and its interactions with matter at the quantum level. It combines principles from quantum mechanics and optics to understand and manipulate the behavior of light and matter at the subatomic level.
Quantum Optics has a wide range of applications in fields such as telecommunications, information processing, and quantum computing. It also plays a crucial role in understanding fundamental concepts of quantum mechanics and has led to groundbreaking discoveries in the field of quantum physics.
Some popular modern Quantum Optics textbooks include "Quantum Optics" by Mark Fox, "Introduction to Quantum Optics" by Harry Paul and "Quantum Optics for Beginners" by G. S. Agarwal. These books cover a wide range of topics and are suitable for both beginners and advanced readers.
Choosing the right textbook depends on your level of understanding and the specific topics you are interested in. It is best to read reviews and compare the content of different textbooks before making a decision. You can also consult with your peers or professors for recommendations.
Yes, there are many online resources available for learning Quantum Optics, such as online lectures, video tutorials, and interactive simulations. Some popular websites include MIT OpenCourseWare, Khan Academy, and Coursera. Additionally, many textbooks also have online resources and supplementary materials that can aid in learning.
Research in quantum information science and engineering (QISE) at the University of Rochester pursues the themes of quantum applications, quantum devices, quantum materials, quantum interconnects, and quantum theory. These research activities involve faculty in multiple departments and units, including chemistry, computer science, electrical engineering, mathematics, mechanical engineering, optics, and physics and astronomy. Facilities leveraged for this research include the University of Rochester Integrated Nanosystems Center (URnano), the Laboratory for Laser Energetics, and the Rochester Test and Packaging Facility.
Girish Agarwal, Ph.D., professor in the Department of Biological and Agricultural Engineering at Texas A&M University, has been selected by Optica members as the 2022 recipient of the Charles Hard Townes Medal.
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