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Johnson James
Le laser
Bordas. Non daté. In-8. Relié. Bon état, Couv. convenable, Dos satisfaisant, Intérieur frais. 48 pages. Nombreuses photos en couleurs dans et hors texte.. . . . Classification Dewey : 620-Art de l'ingénieur et activités connexes
Reference : RO40028522
ISBN : 204015003X
Classification Dewey : 620-Art de l'ingénieur et activités connexes
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5 book(s) with the same title
Laser and Particle Beams - E. Fiorentino, T. Letardi, A. Marino, E. Sabia and M. Vannini - P.H. Handel - T. Tajima - N. Camarcat, J. Delvaux, B. Etlicher, D. Mosher, G. Raboisson et A. Perronnet - N.A. Tahir and K.A. Long - G.J. Tallents
Reference : 70223
(1985)
Laser and Particle Beams - Volume 3, Part 4, November 1985 , Electron-beam sustained discharge XeCl laser - Exploration of fusion conditions in radio frequency discharge cavitons - High energy laser plasma accelerators - Electrical pulsed power generators of the 1 TW class - A proposal and calculation of a benchmark problem for inertial fusion computer codes - A comparison of recombination and photo-pumping mechanisms for producing hydrogen-like Balmer alpha gain
Cambridge University Press , Laser and Particle Beams Malicorne sur Sarthe, 72, Pays de la Loire, France 1985 Book condition, Etat : Bon paperback, editor's purple wrappers grand In-8 1 vol. - 169 pages
few black and white text-figures 1st edition Contents, Chapitres : Pages 319 to 487, Contents of volume 3 - E. Fiorentino, T. Letardi, A. Marino, E. Sabia and M. Vannini : Electron-beam sustained discharge XeCl laser - P.H. Handel : Exploration of fusion conditions in radio frequency discharge cavitons - T. Tajima : High energy laser plasma accelerators - N. Camarcat, J. Delvaux, B. Etlicher, D. Mosher, G. Raboisson et A. Perronnet : Electrical pulsed power generators of the 1 TW class - N.A. Tahir and K.A. Long : A proposal and calculation of a benchmark problem for inertial fusion computer codes - G.J. Tallents : A comparison of recombination and photo-pumping mechanisms for producing hydrogen-like Balmer alpha gain - Book review, Alphabetic Author index, Contents of Volume 3 near fine copy, no markings - a French retailer sticker on the inside part of the wrappers, it's not an ex-library
Stimulated Optical Radiation in Ruby (+) Optical and Microwave-Optical Experiments in Ruby. - [THE FIRST OPERATING LASER]
London, Macmillan, 1960" (New York), American physical Society, 1960. [Stimulated Optical Radiation in Ruby:] Lex8vo. As extracted from Nature. Fine and clean. Pp. 493-4 (one leaf). [Optical and Microwave-Optical Experiments in Ruby:] Lex8vo. Entire issue of ""Physical Review Letters, Volume 4, Number 11, June, 1960"" in the original blue/green wrappers. A very nice and clean copy. [Maiman:] Pp.564-66. [Entire issue: Pp. 555-598].
First printing of these two fundamental papers in the history of the laser, which described the first operating laser. ""[Stimulated Optical Radiation in Ruby] might be considered the most important per word of any of the wonderful papers in Nature over the past century"" (Garwin. A century of Nature. P. 107).""Maiman made the first laser operate on 16 may 1960 at the Hughes Research Laboratory in California, by shining a high-power flash lamp on a ruby rod with silver-coated surfaces. He promptly submitted a short report on the work (Stimulated Optical Radiation in Ruby) to the journal Physical Review Letters, but the editors turned it down."" (Ibid.). Maiman turned to Nature where the paper was better received and published on 6 August. It was turned down by Physical Review Letters because Maiman in June 1960 had submitted a paper with a similar topic (Optical and Microwave-Optical Experiments in Ruby). ""While lasers quickly caught the public imagination, perhaps for their similarity to the 'heat rays' of science fiction, practical applications took years to develop. A young physicist named Irnee D'Haenens, while working with Maiman on the ruby laser, joked that the device was 'a solution looking for a problem,' and the line lingered in the laser community for many years"" (Britannica).The development of the laser was essentially built upon the insights discovered by Albert Einstein in 1917 in his ""Zur Quantentheorie der Strahlung"". Einstein had shown theoretically that stimulated emission of electromagnetic radiation, a re-derivation of Max Planck's law of radiation, would make an atom or molecule to fall to a lower energy state and emit more waves. The development of the laser is not only of seminal importance in itself, it is also a testament to a period in which many of the achievements within theoretical physics reached in the early part of the 20th century went from being theoretical to applied.
Stimulated Optical Radiation in Ruby. - [THE FIRST OPERATING LASER]
London, Macmillan, 1960. Royal8vo. Bound in full cloth with two black leather title label to spine. In ""Nature"", Vol. 187, 1960.
First printing of this fundamental paper in the history of the laser, which described the first operating laser. The paper ""might be considered the most important per word of any of the wonderful papers in Nature over the past century"" (Garwin. A century of Nature. P. 107).""Maiman made the first laser operate on 16 may 1960 at the Hughes Research Laboratory in California, by shining a high-power flash lamp on a ruby rod with silver-coated surfaces. He promptly submitted a short report on the work (Stimulated Optical Radiation in Ruby) to the journal Physical Review Letters, but the editors turned it down."" (Ibid.). Maiman turned to Nature where the paper was better received and published on 6 August. It was turned down by Physical Review Letters because Maiman in June 1960 had submitted a paper with a similar topic (Optical and Microwave-Optical Experiments in Ruby). ""While lasers quickly caught the public imagination, perhaps for their similarity to the 'heat rays' of science fiction, practical applications took years to develop. A young physicist named Irnee D'Haenens, while working with Maiman on the ruby laser, joked that the device was 'a solution looking for a problem,' and the line lingered in the laser community for many years"" (Britannica).The development of the laser was essentially built upon the insights discovered by Albert Einstein in 1917 in his ""Zur Quantentheorie der Strahlung"". Einstein had shown theoretically that stimulated emission of electromagnetic radiation, a re-derivation of Max Planck's law of radiation, would make an atom or molecule to fall to a lower energy state and emit more waves. The development of the laser is not only of seminal importance in itself, it is also a testament to a period in which many of the achievements within theoretical physics reached in the early part of the 20th century went from being theoretical to applied. Gedeon 92.
Stimulated Optical Radiation in Ruby. - [THE FIRST OPERATING LASER]
London, Macmillan, 1960. Royal8vo. Bound in contemporary half cloth with with lettering to spine. In ""Nature"", Vol. 187, 1960. Entire volume offered. Stamp to verso of front board and title-page, otherwise fine and clean. Pp. 493-4. [Entire volume: XCI, 1140 pp.].
First printing of this fundamental paper in the history of the laser, which described the first operating laser. The paper ""might be considered the most important per word of any of the wonderful papers in Nature over the past century"" (Garwin. A century of Nature. P. 107).""Maiman made the first laser operate on 16 may 1960 at the Hughes Research Laboratory in California, by shining a high-power flash lamp on a ruby rod with silver-coated surfaces. He promptly submitted a short report on the work (Stimulated Optical Radiation in Ruby) to the journal Physical Review Letters, but the editors turned it down."" (Ibid.). Maiman turned to Nature where the paper was better received and published on 6 August. It was turned down by Physical Review Letters because Maiman in June 1960 had submitted a paper with a similar topic (Optical and Microwave-Optical Experiments in Ruby). ""While lasers quickly caught the public imagination, perhaps for their similarity to the 'heat rays' of science fiction, practical applications took years to develop. A young physicist named Irnee D'Haenens, while working with Maiman on the ruby laser, joked that the device was 'a solution looking for a problem,' and the line lingered in the laser community for many years"" (Britannica).The development of the laser was essentially built upon the insights discovered by Albert Einstein in 1917 in his ""Zur Quantentheorie der Strahlung"". Einstein had shown theoretically that stimulated emission of electromagnetic radiation, a re-derivation of Max Planck's law of radiation, would make an atom or molecule to fall to a lower energy state and emit more waves. The development of the laser is not only of seminal importance in itself, it is also a testament to a period in which many of the achievements within theoretical physics reached in the early part of the 20th century went from being theoretical to applied. Gedeon 92.
Dr yves victor kamami Le ronflement Comment guérir grâce au laser
1991 1991. Dr Yves-Victor Kamami: Le ronflement. Comment guérir grâce au laser/ 1991
Bon état
