roy glauber (26 risultati)

Condizione: New.

Condizione: New.

hardcover. Condizione: Sehr gut. 656 Seiten; 9783527406876.2 Gewicht in Gramm: 3.

Condizione: New.

Condizione: New.

Condizione: New. In.

Condizione: Good. This is an ex-library book and may have the usual library/used-book markings inside.This book has hardback covers. In good all round condition. No dust jacket. Please note the Image in this listing is a stock photo and may not match the covers of the actual item,1400grams, ISBN:9783527406876.

Hardcover. Condizione: Brand New. 200 pages. 10.00x7.00x0.75 inches. In Stock.

Buch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - Scattering theory provides a framework for understanding the scattering of waves and particles. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories, illustrated throughout with examples and case studies. Trajectories in a complex impact parameter plane are discussed, and it stresses the importance of the analytical properties of the phase shift function in this complex impact plane in the asymptotic limit. Several new rainbow phenomena are also discussed and illustrated. Written by Nobel Prize winner Roy J. Glauber, and Per Osland, an expert in the field of particle physics, the book illustrates the transition from quantum to classical scattering, and provides a valuable resource for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core.

Condizione: New. 2019. Hardcover. . . . . . Books ship from the US and Ireland.

Condizione: New. 2019. Hardcover. . . . . .

Echtfoto. Condizione: Gut. Schwarzweissfoto von Roy Glauber bildseitig mit blauem Stift signiert mit eigenhändigem Zusatz "Dec. 10 '03" /// Autogramm Autograph signiert signed signee /// Roy Jay Glauber (* 1. September 1925 in New York City, New York, USA; ? 26. Dezember 2018 in Newton, Massachusetts) war ein US-amerikanischer Physiker. Er war Mallinckrodt Professor of Physics an der Harvard University und erhielt 2005 den Nobelpreis für Physik. Leben Glauber absolvierte die High School in New York als einer der Ersten an der 1938 gegründeten Bronx High School of Science, einer berühmten öffentlichen Eliteschule. 1940 gewann er mit Fotos, die er durch selbstgebaute Teleskope und Spektroskope schoss, einen Wissenschaftspreis für Schüler der Westinghouse Corporation, und auch mit seinen selbst gebauten Spektroskopen gewann er 1939 Preise. Außerdem war er in den 1930er Jahren in Dorothy Bennetts ?Junior Astronomy Club? aktiv, der dem New Yorker Planetarium angegliedert war. Nach seinem Schulabschluss 1941 studierte er an der Harvard University. Im Zweiten Weltkrieg war er Mitarbeiter in der theoretischen Abteilung am Manhattan-Projekt, wo er sich mit der genaueren Berechnung kritischer Massen befasste. Er machte in Harvard seinen Bachelor of Science 1946 und wurde 1949 bei Julian Schwinger über ein Thema der Quantenfeldtheorie promoviert. Danach war er am Institute for Advanced Study und in Zürich bei Wolfgang Pauli, bevor er auf Vermittlung Robert Oppenheimers seine erste Lehrposition am Caltech in Pasadena erhielt in Vertretung Richard Feynmans, der ein Jahr nach Brasilien ging. In der Mitarbeit an der dortigen Forschungsgruppe um Linus Pauling erwachte sein Interesse an der Streutheorie. Ab Ende der 1950er Jahre befasste er sich zunehmend mit der Physik der damals neu entwickelten Maser und Laser. Ab 1976 war er Professor an der Harvard University und ab 1988 Professor der optischen Fakultät an der University of Arizona. Glauber war während seiner Karriere unter anderem Gastprofessor bzw. Professor am CERN,[1] an der Universität Leiden und am Collège de France in Paris. Er war ab 1961 Mitglied der American Academy of Arts and Sciences und ab 1988 der National Academy of Sciences. 2012 wurde er zum auswärtigen Mitglied der Academia Europaea gewählt. Glauber heiratete 1960 und hatte zwei Kinder. Er starb Ende 2018 im Alter von 93 Jahren.[2][ /// Standort Wimregal PKis-Box105-U012 Sprache: Englisch Gewicht in Gramm: 10.

(26,5 x 20 cm). SS. 1291-2622. Mit Abbildungen. Halbleinwandband der Zeit mit beigebundenen Original-Umschlägen. Erste Ausgabe dieser bedeutenden Arbeit. - Glauber (1925-2018), Professor für Physik in Harvard, forscht auf dem Gebiet der Quantenoptik und entwickelt eine Formel für kohärente Zustände. "For his contribution to the quantum theory of optical coherence" erhält er 2005 den Nobelpreis für Physik. - Stempel auf Vorsatz, sonst gut erhalten.

Soft cover. Condizione: Near Fine. 1st Edition. First edition, journal issue in original printed wrappers, of Glauber's Nobel Prize winning work giving the theoretical explanation of coherent emission of radiation, the basis of the action of the maser and laser. Glauber was awarded one half of the 2005 Nobel Prize in physics "for his contribution to the quantum theory of optical coherence." "[Glauber's] theory uses the formalism of quantum electrodynamics to describe the absorption of a photon in a detector. By correlating several such detectors, [Glauber showed how] one may obtain higher order correlations, which [then] display clearly the characteristic features of quantum radiation" (Nobel Prize Website). Glauber explained the fundamental characteristics of different types of light, such as laser light and light from light bulbs. His theories are widely used in the field of quantum optics. Large 8vo, pp. 2135-2622 (small crease to lower corner of last few leaves, not affecting Galuber's paper). Original printed wrappers (slight dicolouration to upper wrapper).

22.5 cm. [315]-414 pp. Printed wrappers. WITH 3 sheets of yellow-lined paper, containing notes in manuscript by Abraham Pais. Very good. Abstract: After a general discussion of the simple problem of elastic scattering by a static potential where some of the familiar methods of treating the problem and certain very useful theorems regarding the scattering amplitudes are reviewed, the high-energy approximation is developed and applied to problems of gradually increasing complexity. Finally, the collisions involving many-body systems are discussed. See also: Vincenzo Barone, Enrico Predazzi, High-Energy Particle Diffraction. / Roy Jay Glauber is an American theoretical physicist, born in 1925 in New York City. He was a member of the 1941 graduating class of the Bronx High School of Science, and matriculated at Harvard University. After his sophomore year he was recruited to work on the Manhattan Project, where (at the age of 18) he was one of the youngest scientists at Los Alamos National Laboratory. After two years involved in calculating critical mass for the atom bomb, he returned to Harvard completing his bachelor's in 1946 and PhD in 1949. Currently, he is the Mallinckrodt Professor of Physics at Harvard University and Adjunct Professor of Optical Sciences at the University of Arizona. Glauber was jointly awarded the 2005 Nobel Prize in Physics "for his contribution to the quantum theory of optical coherence". In this work, published in 1963, he created a model for photodetection and explained the fundamental characteristics of different types of light, such as laser light and light from light bulbs. His theories are widely used in the field of quantum optics. He currently serves on the National Advisory Board of the Center for Arms Control and Non-Proliferation, the research arms of Council for a Livable World. Glauber has also received many honors for his research, including the Albert A. Michelson Medal from the Franklin Institute in Philadelphia (1985), the Max Born Award from the Optical Society of America (1985), the Dannie Heineman Prize for Mathematical Physics from the American Physical Society (1996), and the 2005 Nobel Prize in Physics. Professor Glauber was awarded the 'Medalla de Oro del CSIC' ('CSIC's Gold Medal') in a ceremony held in Madrid, Spain. He was elected a Foreign Member of the Royal Society as well (ForMemRS) in 1997.

Soft cover. Condizione: Very Good. GLAUBER, Roy J. "The Quantum Theory of Optical Coherence" in "Physical Review," Lancaster, PA. & New York, NY., American Physical Society, 15 June 1963, vol 130 no. 6, pp 2529-2539. quantum theory of optical coherence, pp. 2529-39. Original wrappers. Nice copy except for a bit of spine missing on upper left top corner of spine. VG copy. Housed in a brand-new multi-folding cloth case. [++] Glauber was awarded half of the 2005 Nobel Prize in physics "for his contribution to the quantum theory of optical coherence." "[Glauber's] theory uses the formalism of quantum electrodynamics to describe the absorption of a photon in a detector. By correlating several such detectors, [it was shown how] one may obtain higher order correlations, which would display clearly the characteristic features of quantum radiation."--Nobel Prize Foundation website. This paper has been cited 5000+ times. [++] "In 1963, U.S. theoretical physicist Roy J. Glauber published his historic paper, "The Quantum Theory of Optical Coherence," which explained the fundamental characteristics of different types of lightfrom lasers to light bulbs. Glauber's theory of photodetection is highly influential in quantum optics and led to his sharing the 2005 Nobel Prize in physics "for his contributions to the quantum theory of optical coherence."--Hagler Institute, Texas A&M website. [++] "The concept of coherence which has conventionally been used in optics is found to be inadequate to the needs of recently opened areas of experiment. To provide a fuller discussion of coherence, a succession of correlation functions for the complex field strengths is defined. The nth order function expresses the correlation of values of the fields at 2n different points of space and time. Certain values of these functions are measurable by means of n-fold delayed coincidence detection of photons. A fully coherent field is defined as one whose correlation functions satisfy an infinite succession of stated conditions. Various orders of incomplete coherence are distinguished, according to the number of coherence conditions actually satisfied. It is noted that the fields historically described as coherent in optics have only first-order coherence. On the other hand, the existence, in principle, of fields coherent to all orders is shown both in quantum theory and classical theory. The methods used in these discussions apply to fields of arbitrary time dependence. It is shown, as a result, that coherence does not require monochromaticity. Coherent fields can be generated with arbitrary spectra."--Abstract.

Condizione: Very Good. 100 pp., stapled softcover offprint, very good. - If you are reading this, this item is actually (physically) in our stock and ready for shipment once ordered. We are not bookjackers. Buyer is responsible for any additional duties, taxes, or fees required by recipient's country. Photos available upon request.

1st Edition. BOUND FULL VOLUME FIRST EDITION OF GLAUBER'S NOBLE PRIZE WINNING QUANTUM THEORY OF OPTICAL COHERENCE, the quantum mechanical basis of different types of light. Glauber's announcement of his theory was published in a letter to Physical Review Letters the same year. Offered here is the longer explanation of the theory. "[Glauber's] theory uses the formalism of quantum electrodynamics to describe the absorption of a photon in a detector. By correlating several such detectors, [Glauber showed how] one may obtain higher order correlations, which [then] display clearly the characteristic features of quantum radiation" (Nobel Prize Website). Glauber's work formed the basis for the development of Quantum Optics when it was written and still does to this day. Glauber was awarded the Nobel Prize for his work in optical coherence in 2005. Glauber's seminal theory, at first controversial but now widely used in the field of quantum optics, differentiates between laser (coherent) light and normal (blackbody) light. Arguing that photon correlation experiments must be based on a consistent application of quantum electrodynamics, Glauber showed how the quantum theory has to be formulated in order to describe the detection process. "This also served to bring out the distinction between the behaviour of thermal light sources and presently common coherent sources such as lasers and quantum amplifiers. CONDITION & DETAILS: Lancaster: American Institute of Physics. 4to (10.25 x 8 inches; 256 x 200mm). Entire volume, continuously paginated pp. 1639-2622. Glauber paper: pp.2529-2538. Ex-libris with minimal markings (pictorial plate on paste down and no spine markings whatsoever). Illustration: In-text figures throughout. Exterior: Bound in gold buckram with a gilt-lettered spine. Tight, solid. Near fine. Interior: Bright and very clean throughout. Near fine condition.

Original souvenir programs and film credits material showcasing some of the films from the 1964 Cannes Film Festival. It was this festival, the seventeenth one to be held, that the award name was changed from the Palme d'Or to the Grand Prix du Festival International du Film, the name used until 1974 when it returned to its former title. French and English language. Films represented in the collection include George Roy Hill's "The World of Henry Orient," Gianfranco Mingozzi's "I mali mestieri" (1963 documentary of the city of Palermo), Gyula Macskassy and Gyorgy Varnai's "1, 2, 3." (Hungarian short film on mathematics), Nobuko Shibuya's Grand Prix award winning "The Price of Victory" (Japanese volleyball documentary), Glauber Rocha's "Black God, White Devil" (a Brazilian Western). Also included is a credit sheet detailing a special showing of "Naissance du Cinema," a documentary about Louis Lumiere, held in the Grand Hall at the festival, presented on the centennial of Lumiere's birth. Programs and credit sheets housed in a "Henry Orient" promotional folder. Near Fine overall.

Lancaster, American Institute of Physics, 1963. Lex8vo. Volume 130, 15 June, No. 6, of "The Physical Review", Second Series. Entire volume offered in the original printed blue wrappers. Previous owner's stamp to front wrapper. Wear to spine and extremities. Internally fine and clean. Pp. 2529-38. [Entire issue: Pp. 2135-2622]. First publication of this seminal paper in which the first thorough development of the quantum theory of optical coherence was presented. The present paper led directly to Glauber being awarded the Nobel Prize in physics in 2005 "for his contribution to the quantum theory of optical coherence". His theories are today widely used in the field of quantum optics."After the discovery of the maser and the laser in the sixties new ideas for quantum effects of the radiation field were in the air. However, there was no theory for their observation. It was only in 1963 that Roy [Glauber] had developed the quantum theory of optical coherence [in the present paper]. Here the concept of coherence state plays a central role. Coherent states had been proposed for the first time by Erwin Schrödinger in order to show that a wavepacket needs not always to be bound to spread. The coherent state became the crucial tool for Roy's theory of optical coherence. In particular, he could show that for coherent fields all correlation functions factorize." (Scully. Quantum theory of optical coherence. 2009. P. xv.).Glauber's work was essential for understanding and the further development of the laser.

Hardcover. Condizione: new. Hardcover. Scattering theory provides a framework for understanding the scattering of waves and particles. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories, illustrated throughout with examples and case studies. Trajectories in a complex impact parameter plane are discussed, and it stresses the importance of the analytical properties of the phase shift function in this complex impact plane in the asymptotic limit. Several new rainbow phenomena are also discussed and illustrated. Written by Nobel Prize winner Roy J. Glauber, and Per Osland, an expert in the field of particle physics, the book illustrates the transition from quantum to classical scattering, and provides a valuable resource for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories. It demonstrates the transition from quantum to classical scattering, for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability.

Condizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. &Uumlber den AutorRoy J. Glauber was Mallinckrodt Professor of Physics (Emeritus) at Harvard University, Massachusetts, and Adjunct Professor of Optical Sciences at the University of Arizona. In 2005, he received half the Nobel Prize in.

Hardcover. Condizione: Brand New. 200 pages. 10.00x7.00x0.75 inches. In Stock. This item is printed on demand.

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Hardcover. Condizione: new. Hardcover. Scattering theory provides a framework for understanding the scattering of waves and particles. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories, illustrated throughout with examples and case studies. Trajectories in a complex impact parameter plane are discussed, and it stresses the importance of the analytical properties of the phase shift function in this complex impact plane in the asymptotic limit. Several new rainbow phenomena are also discussed and illustrated. Written by Nobel Prize winner Roy J. Glauber, and Per Osland, an expert in the field of particle physics, the book illustrates the transition from quantum to classical scattering, and provides a valuable resource for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories. It demonstrates the transition from quantum to classical scattering, for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability.

Hardcover. Condizione: new. Hardcover. Scattering theory provides a framework for understanding the scattering of waves and particles. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories, illustrated throughout with examples and case studies. Trajectories in a complex impact parameter plane are discussed, and it stresses the importance of the analytical properties of the phase shift function in this complex impact plane in the asymptotic limit. Several new rainbow phenomena are also discussed and illustrated. Written by Nobel Prize winner Roy J. Glauber, and Per Osland, an expert in the field of particle physics, the book illustrates the transition from quantum to classical scattering, and provides a valuable resource for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories. It demonstrates the transition from quantum to classical scattering, for researchers using scattering theory in nuclear, particle, atomic, and molecular physics. This title is also available as open access on Cambridge Core. This item is printed on demand. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.