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Books on the topic 'Light angular scattering spectroscopy'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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1

A, Gabriel Don, ed. Laser light scattering. New York: Dover, 1994.

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2

Pike, E. R. Light Scattering and Photon Correlation Spectroscopy. Dordrecht: Springer Netherlands, 1997.

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3

Pike, E. R., and J. B. Abbiss, eds. Light Scattering and Photon Correlation Spectroscopy. Dordrecht: Springer Netherlands, 1997. http://dx.doi.org/10.1007/978-94-011-5586-1.

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4

Stolz, Heinrich. Time-resolved light scattering from excitons. Berlin: Springer-Verlag, 1994.

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5

Twisted photons: Applications of light with orbital angular momentum. Weinheim, Germany: Wiley-VCH, 2011.

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6

Evans, Myron W. The role of net angular momentum in pump/probe spectroscopy: Adsorption, refringence, scattering, and nuclear resonance. Ithaca, N.Y: Cornell Theory Center, Cornell University, 1990.

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7

Biswas, Nandita. Development of a Raman Spectrometer to study surface enhanced Raman Scattering. Mumbai: Bhabha Atomic Research Centre, 2011.

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8

Sushchinskiĭ, M. M. Nelineĭnoe kombinat︠s︡ionnoe rassei︠a︡nie sveta. Moskva: Fizicheskiĭ in-t im. P.N. Lebedeva RAN, 2004.

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9

Saratov Fall Meeting (2006 Saratov, Russia). Laser physics and photonics, spectroscopy and molecular modeling VII: Saratov Fall Meeting 2006 : 26-29 September 2006, Saratov, Russia. Edited by Derbov Vladimir L, Melnikov Leonid A, Babkov, L. M. (Lev Mikhaĭlovich), Saratovskiĭ gosudarstvennyĭ universitet im. N.G. Chernyshevskogo, Rossiĭskai︠a︡ akademii︠a︡ estestvennykh nauk. Saratovskoe regionalʹnoe otdelenie, Russian Society for Photobiology, Rossiĭskai︠a︡ akademii︠a︡ nauk. Saratov Science Center, Rossiĭskiĭ fond fundamentalʹnykh issledovaniĭ, and Society of Photo-optical Instrumentation Engineers. Bellingham, Wash: SPIE, 2006.

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10

Saratov Fall Meeting (2003 Saratov, Russia). Laser physics and photonics, spectroscopy, and molecular modeling IV: Saratov Fall Meeting 2003 : 7-10 October, 2003, Saratov, Russia. Edited by Derbov Vladimir L, Melinkov Leonid A, Babkov L. M, Saratovskiĭ gosudarstvennyĭ universitet im. N.G. Chernyshevskogo., Society of Photo-optical Instrumentation Engineers. Russian Chapter., and Society of Photo-optical Instrumentation Engineers. Bellingham, Wash: SPIE, 2004.

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11

A, Zimnyakov Dmitry, Saratovskiĭ gosudarstvennyĭ universitet im. N.G. Chernyshevskogo., Russia (Federation) Ministerstvo obrazovanii͡a︡, Society of Photo-optical Instrumentation Engineers. Russian Chapter., Society of Photo-optical Instrumentation Engineers., International School for Young Scientists and Students on Optics, Laser Physics, and Photonics (2002 : Saratov, Russia), Workshop on Optical Technologies in Biophysics and Medicine V (2002 : Saratov, Russia), Workshop on Laser Physics and Photonics (2002 : Saratov, Russia), and Workshop on Spectroscopy and Molecular Modeling (2002 : Saratov, Russia), eds. Laser physics and photonics, spectroscopy, and molecular modeling III: Coherent optics of ordered and random media III : Saratov Fall meeting 2002 : 1-4 October, 2002, Saratov, Russia. Bellingham, Wash: SPIE, 2003.

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12

ZnO bao mo zhi bei ji qi guang, dian xing neng yan jiu. Shanghai Shi: Shanghai da xue chu ban she, 2010.

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13

1929-, Pike E. R., Abbiss John, North Atlantic Treaty Organization. Scientific Affairs Division., and NATO Advanced Research Workshop on Light Scattering and Photon Correlation Spectroscopy (1996 : Krakow, Poland), eds. Light scattering and photon correlation spectroscopy. Dordrecht: Kluwer Academic Publishers, 1997.

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14

Pike, E. R., and J. B. Abbiss. Light Scattering and Photon Correlation Spectroscopy. Springer, 2012.

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15

1938-, Pecora Robert, ed. Dynamic light scattering: Applications of photon correlation spectroscopy. New York: Plenum Press, 1985.

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16

Pecora, R. Dynamic Light Scattering: Applications of Photon Correlation Spectroscopy. Springer, 1985.

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17

Pecora, Robert. Dynamic Light Scattering: Applications of Photon Correlation Spectroscopy. Springer, 2011.

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18

Furst, Eric M., and Todd M. Squires. Light scattering microrheology. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199655205.003.0005.

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The fundamentals and best practices of passive microrheology using dynamic light scattering and diffusing wave spectroscopy are discussed. The principles of light scattering are introduced and applied in both the single and multiple scattering regimes, including derivations of the light and field autocorrelation functions. Applications to high-frequency microrheology and polymer dynamics are presented, including inertial corrections. Methods to treat gels and other non-ergodic samples, including multi-speckle and optical mixing designs are discussed. Dynamic light scattering (DLS) is a well established method for measuring the motion of colloids, proteins and macromolecules. Light scattering has several advantages for microrheology, especially given the availability of commercial instruments, the relatively large sample volumes that average over many probes, and the sensitivity of the measurement to small particle displacements, which can extend the range of length and timescales probed beyond those typically accessed by the methods of multiple particle tracking and bulk rheology.
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19

1934-, Cardona Manuel, and Merlin R. 1950-, eds. Light scattering in solids. Berlin: Springer, 2007.

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20

Torres, Juan P., and Lluis Torner. Twisted Photons: Applications of Light with Orbital Angular Momentum. Wiley & Sons, Incorporated, John, 2011.

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21

Torres, Juan P., and Lluis Torner. Twisted Photons: Applications of Light with Orbital Angular Momentum. Wiley & Sons, Incorporated, John, 2011.

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22

Torres, Juan P., and Lluis Torner. Twisted Photons: Applications of Light with Orbital Angular Momentum. Wiley & Sons, Limited, John, 2011.

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23

Mayer, Steven G. Size estimates of molecular clusters using elastic light scattering and CARS spectroscopy. 1997.

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24

The temperature dependence of inelastic light scattering from small particles for use in combustion diagnostic instrumentation. [Washington, DC: National Aeronautics and Space Administration, 1987.

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25

(Editor), Manuel Cardona, and Roberto Merlin (Editor), eds. Light Scattering in Solids IX (Topics in Applied Physics). Springer, 2007.

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26

L, Andrews David, and Society of Photo-optical Instrumentation Engineers., eds. Raman spectroscopy and light scattering technologies in materials science: 31 July-1 August 2001, San Diego, USA. Bellingham, Wash., USA: SPIE, 2001.

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27

Saratov Fall Meeting 2003: Laser physics and photonics, spectroscopy, and molecular modeling IV : 7-10 October 2003, Saratov, Russia. Bellingham, WA: SPIE, 2004.

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28

SPIE. Saratov Fall Meeting 2003: Laser Physics And Photonics, Spectroscopy, And Molecular Modeling Iv (Proceedings of S P I E). SPIE-International Society for Optical Engine, 2004.

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29

Derbov, Vladimir, Leonid Melnikov, and Lev Babkov. Laser Physics and Photonics, Spectroscopy, and Molecular Modeling VI : Saratov Fall Meeting 2005: 27-30 September, 2005, Saratov, Russia. SPIE, 2006.

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30

L, Andrews David, and Society of Photo-optical Instrumentation Engineers., eds. Optical devices and diagnostics in materials science: 1-4 August 2000, San Diego, USA. Bellingham, Wash., USA: SPIE, 2000.

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31

David, Benaron, Chance Britton, Ferrari Marco, Società italiana di laser chirurgia e medicina., and Society of Photo-optical Instrumentation Engineers., eds. Proceedings of photon propagation in tissues III: 6-8 September 1997, San Remo, Italy. Bellingham, Wash., USA: SPIE, 1998.

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32

J, Bachmann Klaus, and United States. National Aeronautics and Space Administration., eds. P-polarized reflectance spectroscopy: A high sensitive real-time monitoring technique to study surface kinetics under steady state epitaxial deposition conditions. [Washington, D.C: National Aeronautics and Space Administration, 1995.

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33

J, Bachmann Klaus, and United States. National Aeronautics and Space Administration., eds. P-polarized reflectance spectroscopy: A high sensitive real-time monitoring technique to study surface kinetics under steady state epitaxial deposition conditions. [Washington, D.C: National Aeronautics and Space Administration, 1995.

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34

J, Bachmann Klaus, and United States. National Aeronautics and Space Administration., eds. P-polarized reflectance spectroscopy: A high sensitive real-time monitoring technique to study surface kinetics under steady state epitaxial deposition conditions. [Washington, D.C: National Aeronautics and Space Administration, 1995.

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35

Furst, Eric M., and Todd M. Squires. Microrheology. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199655205.001.0001.

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We present a comprehensive overview of microrheology, emphasizing the underlying theory, practical aspects of its implementation, and current applications to rheological studies in academic and industrial laboratories. Key methods and techniques are examined, including important considerations to be made with respect to the materials most amenable to microrheological characterization and pitfalls to avoid in measurements and analysis. The fundamental principles of all microrheology experiments are presented, including the nature of colloidal probes and their movement in fluids, soft solids, and viscoelastic materials. Microrheology is divided into two general areas, depending on whether the probe is driven into motion by thermal forces (passive), or by an external force (active). We present the theory and practice of passive microrheology, including an in-depth examination of the Generalized Stokes-Einstein Relation (GSER). We carefully treat the assumptions that must be made for these techniques to work, and what happens when the underlying assumptions are violated. Experimental methods covered in detail include particle tracking microrheology, tracer particle microrheology using dynamic light scattering and diffusing wave spectroscopy, and laser tracking microrheology. Second, we discuss the theory and practice of active microrheology, focusing specifically on the potential and limitations of extending microrheology to measurements of non-linear rheological properties, like yielding and shear-thinning. Practical aspects of magnetic and optical tweezer measurements are preseted. Finally, we highlight important applications of microrheology, including measurements of gelation, degradation, high-throughput rheology, protein solution viscosities, and polymer dynamics.
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