By R B Lyon; International Atomic Energy Agency
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The optical clear out, which has emerged within the previous couple of years in built-in optics, is resonator established. Ring-resonator filters don't require aspects or gratings for optical suggestions and are therefore quite suited to monolithic integration with different parts. Ring resonators locate functions not just in optical networks, but in addition as sensors.
Offers a definitive evaluation of the present prestige of gamma-ray lasers together with contributions from scientists pursuing lively learn in parts appropriate to the graser challenge. Describes quite a number programmes which take care of picking out candidate nuclei, deciding to buy definitely the right lasing medium and forming it into an acicular geometry, operating in an power regime that allows using the Mossbauer impression, utilizing the Campbell-Borrmann impact to diminish digital absorption, designing easy experiments that show serious steps essential to produce a graser, and clarifying a couple of theoretical difficulties particular to the nuclear laser
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Additional resources for Fuel cycle options for light water reactors and heavy water reactors : proceedings of a Technical Committee meeting
G. Gu. “Optical neural networks using volume holography,” PhD dissertation, California Inst. Technology, Pasadena, 1990. 12. P. Yeh. Introduction to Photorefractive Nonlinear Optics. New York: Wiley, 1993. 13. A. C. Chou. “Information theoretic limits to the capacity of volume holographic optical memory,” Appl. Opt. 36, 514–517, 1997. 14. W. M. Jefferson, H. Coufal, M. A. M. M. Shelby. “Volume holographic data storage at an areal density of 250 gigapixels/in2 ,” Opt. Lett. 26, 444–446, 2001. 15.
S. , eds. New York: Plenum, 1978, 2, pp. 217–233. 10. D. W. Burr. “Volume holographic memory systems: Techniques and architectures,” Computer 31, 52–60, 1998. 11. -G. Gu. “Optical neural networks using volume holography,” PhD dissertation, California Inst. Technology, Pasadena, 1990. 12. P. Yeh. Introduction to Photorefractive Nonlinear Optics. New York: Wiley, 1993. 13. A. C. Chou. “Information theoretic limits to the capacity of volume holographic optical memory,” Appl. Opt. 36, 514–517, 1997.
44. D. M. F. Rodgers. “High-sensitivity optical recording in KTN by twophoton absorption,” Appl. Phys. Lett. 26, 22–24, 1975. 45. L. S. Orlov, A. Liu, A. Akella, D. R. Neurgaonkar. “Photorefractive materials for nonvolatile volume holographic data storage,” Science 282, 1089–1094, 1998. 46. D. S. Orlov, A. R. Neurgaonkar. “Digital holographic storage system incorporating optical fixing,” Opt. Lett. 22, 1722–1724, 1997. 47. B. Marcus. “Modulation codes for holographic recording,” in Holographic Data Storage, H.