Books on the topic 'Brillouin scattering'

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1

Zadok, Avi, Hilel Hagai Diamandi, Yosef London, and Gil Bashan. Forward Brillouin Scattering in Standard Optical Fibers. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-13599-6.

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2

Still, Tim. High frequency acoustics in colloid-based meso- and nanostructures by spontaneous Brillouin light scattering. Berlin: Springer-Verlag, 2010.

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3

Boyle, Jonathan William. Observation of linear and nonlinear magnetostatic waves by Brillouin light scattering. Salford: University of Salford, 1995.

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4

Drozdowski, Mirosław. Badanie własności sprężystych i elastooptycznych monokryształów LiCsSO₄ i LiKSO₄ metodą brillouinowskiego rozpraszania światła. Poznań: Politechnika Poznańska, 1990.

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5

Lehndorff, Michael. Brillouinstreuung an thermischen und mikrowelleninduzierten Fluktuationen in Lithium-dotiertem Kalium-Tantalat. Konstanz: Hartung-Gorre, 1986.

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6

Still, Tim. High Frequency Acoustics in Colloid-Based Meso- and Nanostructures by Spontaneous Brillouin Light Scattering. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-13483-8.

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7

Suto, Ken. Semiconductor Raman lasers. Boston: Artech House, 1994.

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8

1943-, Fisher Robert A., Society of Photo-optical Instrumentation Engineers., and Innovative Science and Technology Symposium (1988 : Los Angeles, Calif.), eds. Nonlinear optical beam manipulation, beam combining, and atmospheric propagation: 11-14 January 1988, Los Angeles, California. Bellingham, Wash., USA: SPIE, 1988.

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9

Steel, Michael, Benjamin J. Eggleton, and Chris Poulton. Brillouin Scattering. Academic Press, 2022.

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10

Steel, Michael, Benjamin J. Eggleton, and Chris Poulton. Brillouin Scattering. Elsevier Science & Technology Books, 2022.

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11

Damzen, M. J., Anca Mocofanescu, Mike Damzen, Valentin Vlad, and Vasile Babin. Stimulated Brillouin Scattering. Taylor & Francis Group, 2010.

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12

Brillouin Scattering Part 1. Elsevier, 2022. http://dx.doi.org/10.1016/s0080-8784(22)x0002-1.

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13

Brillouin Scattering Part 2. Elsevier, 2022. http://dx.doi.org/10.1016/s0080-8784(22)x0003-3.

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14

Stimulated Brillouin scattering: Fundamentals and applications. Bristol: Institute of Physics Pub., 2003.

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15

Damzen, M. J., V. Babin, Anca Mocofanescu, and V. Vlad. Stimulated Brillouin Scattering: Fundamentals and Applications. Taylor & Francis Group, 2003.

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16

Damzen, M. J., V. Babin, Anca Mocofanescu, and V. Vlad. Stimulated Brillouin Scattering: Fundamentals and Applications. Taylor & Francis Group, 2003.

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17

Damzen, M. J., V. Vlad, A. Mocofanescu, and V. Babin. Stimulated Brillouin Scattering: Fundamentals and Applications (Optics and Optoelectronics). Taylor & Francis, 2003.

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18

Still, Tim. High Frequency Acoustics in Colloid-Based Meso- and Nanostructures by Spontaneous Brillouin Light Scattering. Springer, 2012.

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19

Morton, Kenneth Patterson. Optical phase conjugation via stimulated Brillouin scattering in carbon disulfide. 1985.

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20

Hashim, Dayang Maryani Awang. Brillouin and neutron scattering study of hexagonal ABX3 ternary halides. 1995.

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21

1934-, Cardona Manuel, and Güntherodt G. 1943-, eds. Light scattering in solids. Berlin: Springer, 2000.

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22

James, Campbell Andrew. Elasticity of materials at mantle pressures. 1993.

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23

He, Guang S. Laser Stimulated Scattering and Multiphoton Excitation. Oxford University Press, 2022. http://dx.doi.org/10.1093/oso/9780192895615.001.0001.

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Laser Stimulated Scattering and Multiphoton Excitation is the first book that comprehensively covers the following three major areas: (1) Quantum electrodynamic theory of stimulated scattering and multiphoton excitation processes; (2) Various stimulated scattering effects, including the early discovered stimulated Raman scattering (SRS) and stimulated Brillouin scattering (SBS), the later investigated stimulated Kerr scattering (SKS), and the recently developed stimulated Rayleigh–Bragg scattering (SRBS) and stimulated Mie scattering (SMS); (3) Multiphoton excitation-based nonlinear optical effects, photoelectric effects, atomic and molecular ionization effects, and molecular dissociation effects. Each chapter covers: (i) the concept and mechanism description, (ii) the necessary theoretical formulation, (iii) the experimental research achievements, and (iv) the scientific/technological applications. Laser Stimulated Scattering and Multiphoton Excitation is useful and suitable for academics, experts, and students working or interested in the areas of nonlinear optics, nonlinear photonics, laser spectroscopy, physical optics, physical chemistry, and optoelectronic engineering.
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24

United States. National Aeronautics and Space Administration., ed. Robust, Brillouin active embedded fiber-is-the-sensor system in smart composite structures: Grant no. NAG-1835, April 22, 1996-April 21, 1997, annual progress report. [Washington, DC: National Aeronautics and Space Administration, 1996.

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25

United States. National Aeronautics and Space Administration., ed. Robust, Brillouin active embedded fiber-is-the-sensor system in smart composite structures: Grant no. NAG-1835, April 22, 1996-April 21, 1997, annual progress report. [Washington, DC: National Aeronautics and Space Administration, 1996.

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26

United States. National Aeronautics and Space Administration., ed. Robust, Brillouin active embedded fiber-is-the-sensor system in smart composite structures: Grant no. NAG-1835, April 22, 1996-April 21, 1997, annual progress report. [Washington, DC: National Aeronautics and Space Administration, 1996.

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27

Laser Beam Combining and Cleanup via Stimulated Brillouin Scattering in Multi-mode Optical Fibers. Storming Media, 1999.

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28

Zadok, Avi, Hilel Hagai Diamandi, Yosef London, and Gil Bashan. Forward Brillouin Scattering in Standard Optical Fibers: Single-Mode, Polarization-Maintaining, and Multi-Core. Springer International Publishing AG, 2022.

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29

Cardona, M. Light Scattering In Solids Vii: Crystal Field and Magnetic Excitations (TOPICS IN APPLIED PHYSICS). Edited by M. Cardona. Springer, 2000.

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30

Zhou, S. Y., and A. Lanzara. The electronic structure of epitaxial graphene—A view from angle-resolved photoemission spectroscopy. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.14.

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This article analyzes the electronic structure of epitaxial graphene using angle-resolved photoemission spectroscopy (ARPES). It first describes how the carbon atoms in graphene are arranged before discussing the growth and characterization of graphene samples. It then considers the electronic structure of epitaxial graphene, along with the gap opening in single-layer epitaxial graphene. It also examines possible mechanisms for the gap opening in graphene, including quantum confinement, mixing of the states between the Brillouin zone corner K points induced by scattering, and hybridization of the valence and conduction bands caused by symmetry breaking in carbon sublattices. Clear deviations from the conical dispersions are observed near the Diracpoint energy, which can be interpreted as a gap opening attributed to graphene–substrate interaction. Graphene–substrate interaction is thus a promising route for engineering the bandgap in graphene.
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