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Libros sobre el tema "Magnetic pulse generator"

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Publicado: 1 de junio de 2024

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1

Cowan, M. Megagauss magnetic field generation and pulsed power applications. New York: Nova Science, 1994.

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2

Russia) Gidrodinamika vysokikh plotnosteĭ ėnergii (2003 Novosibirsk. Gidrodinamika vysokikh plotnosteĭ ėnergii: Trudy mezhdunarodnogo seminara Gidrodinamika vysokikh plotnosteĭ ėnergii, 11-15 avgusta 2003 g., Novosibirsk, Rossii︠a︡. Novosibirsk: Institut gidrodinamiki im. M.A. Lavrentʹeva SO RAN, 2004.

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3

L, Altgilbers Larry, ed. Magnetocumulative generators. New York: Springer, 2000.

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4

International, Conference on Megagauss Magnetic Field Generation and Related Topics (4th 1986 Santa Fe N. M. ). Megagauss technology and pulsed power applications. New York: Plenum Press, 1987.

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5

J, Schneider-Muntau Hans y Physical Phenomena at High Magnetic Fields (3rd : 1998 : Tallahassee, Fla.), eds. Megagauss magnetic field generation, its application to science and ultra-high pulsed-power technology: Proceedings of the VIIIth International Conference on Megagauss Magnetic Field Generation and Related Topics : Tallahassee, Florida, USA, 18-23 October 1998. Hackensack, NJ: World Scientific, 2004.

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6

Neuber, Andreas A. Explosively Driven Pulsed Power: Helical Magnetic Flux Compression Generators. Springer, 2010.

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7

Neuber, Andreas A. Explosively Driven Pulsed Power: Helical Magnetic Flux Compression Generators. Springer London, Limited, 2006.

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8

Neuber, Andreas A. Explosively Driven Pulsed Power: Helical Magnetic Flux Compression Generators (Power Systems). Springer, 2005.

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9

Shneerson, German A., Sergey I. Krivosheev y Mikhail I. Dolotenko. Strong and Superstrong Pulsed Magnetic Fields Generation. de Gruyter GmbH, Walter, 2014.

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10

Strong And Superstrong Pulsed Magnetic Fields Generation. Walter de Gruyter, 2012.

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11

Shneerson, German A., Sergey I. Krivosheev y Mikhail I. Dolotenko. Strong and Superstrong Pulsed Magnetic Fields Generation. de Gruyter GmbH, Walter, 2014.

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12

Fowler, C. M., R. S. Caird y D. J. Erickson. Megagauss Technology and Pulsed Power Applications. Springer, 1987.

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13

George, Thomas F., Wolfgang Hübner, Guo-ping Zhang, Georgios Lefkidis y Mitsuko Murakami. Introduction to Ultrafast Phenomena: From Femtosecond Magnetism to High-Harmonic Generation. Taylor & Francis Group, 2020.

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14

George, Thomas F., Wolfgang Hübner, Guo-ping Zhang, Georgios Lefkidis y Mitsuko Murakami. Introduction to Ultrafast Phenomena: From Femtosecond Magnetism to High-Harmonic Generation. Taylor & Francis Group, 2020.

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15

Introduction to Ultrafast Phenomena: From Femtosecond Magnetism to High-Harmonic Generation. Taylor & Francis Group, 2020.

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16

George, Thomas F., Wolfgang Hübner, Guo-ping Zhang, Georgios Lefkidis y Mitsuko Murakami. Introduction to Ultrafast Phenomena: From Femtosecond Magnetism to High-Harmonic Generation. Taylor & Francis Group, 2020.

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17

Bylander, J. Superconducting Quantum Bits of Information—Coherence and Design Improvements. Editado por A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.18.

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This article reviews recent progress in superconducting quantum bits, including major improvements in design and coherence times. It first provides an overview of the basics of modern superconducting qubit devices and their architectures before turning to single-qubit Hamiltonians and reference frames. It then examines how decoherence originates with noise and shows how to characterize and mitigate this noise using magnetic-resonance-type pulse sequences. It also describes the first-generation superconducting qubits and the now-dominant circuit-quantum electrodynamics architecture in which qubits are coupled to microwave resonators. Finally, it considers several improved designs of superconducting qubits in which coherence times have been significantly improved by minimizing the sensitivity to fluctuating impurities and the coupling to external modes.
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18

Gilbert, Donald L. Design and analysis of motor-evoked potential data in pediatric neurobehavioral disorder investigations. Editado por Charles M. Epstein, Eric M. Wassermann y Ulf Ziemann. Oxford University Press, 2012. http://dx.doi.org/10.1093/oxfordhb/9780198568926.013.0025.

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This article discusses how transcranial magnetic stimulation (TMS) can be used to study the pathophysiological substrata of pediatric neurological and neurobehavioural disorders and to provide practical guidance for future research. It outlines the substantial challenges inherent in studying in vivo the neurobiology of pediatric neurobehavioural disorders, such as safety, quantitative versus categorical measures, and challenges in correlational studies. It discusses ways in which TMS generates quantitative measures that may function as endophenotypes for neurobehavioural disorders. Combining TMS with other modalities may also be informative. Single- and paired-pulse TMS is safe and well tolerated in children. The application of rigorous experimental designs and a combination of TMS with other research methods may increase the knowledge of pathophysiology and treatment of pediatric neurobehavioural disorders.
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19

Wright, A. G. Secondary emission and gain. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0005.

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Secondary-electron emission generates gain in conventional vacuum photomultipliers with discrete dynodes. This is a cascade process involving between 6 and 20 elements. Generally, the higher the number of stages, the higher is the gain and similarly for applied voltage. Gain is dependent on the composition of the dynodes, with SbCs and activated BeO being the most common materials. There are ten different dynode types, each of which serves a particular purpose: for example, operation in high magnetic fields and high temperature. The continuous channel dynode is available as a single unit and as a multichannel structure, the microchannel plate. The quality of a dynode system is described by its single-electron response. Discrete dynodes produce a spread in output size whereas the channel devices are generally operated in saturation. Gain may be quoted as DC, G, and pulsed ‹g› and methods for measuring these parameters are given.
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20

Schneider-Muntau, Hans J. Megagauss Magnetic Field Generation, Its Application To Science And Ultra-High Pulsed-Power Technology: Proceedings of the VIIIth International Conference ... : Tallahassee, Florida, USA 18-23 October. World Scientific Publishing Company, 2004.

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