Results 201 to 210 of about 75,003 (238)

Thomson Scattering and Burning Plasmas

AIP Conference Proceedings, 2008
In low temperature plasmas, tokamaks and other experimental fusion devices, the electron temperature and densities in the plasma can be measured with high accuracy by detecting the effect of Thomson scattering of light from a high‐intensity laser fired through the device.
M. J. Walsh, Giuseppe Gorini, Francesco P. Orsitto, Elio Sindoni, Marco Tardocchi   +4 more
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Incoherent Thomson Scattering as a Diagnostic Tool

Fusion Technology, 1998
Thomson scattering is a very powerful diagnostic which is applied at nearly every magnetic confinement device. Depending on the experimental conditions different plasma parameters can be diagnosed. When the wavelength is much smaller than the plasma Debye length, the total scattered power is obtained by an incoherent summation over the scattered powers
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X-ray Thomson scattering

IEEE Conference Record - Abstracts. 2002 IEEE International Conference on Plasma Science (Cat. No.02CH37340), 2003
Summary form only given, as follows. A series of experiments have been carried out at the Rutherford-Appleton laboratory to investigate X-ray scattering from laser produced plasmas. Most experiments shave been based on Rayleigh scattering from bound electrons and are sensitive to ion-ion correlations which lead to a scattering structure factor with a ...
D. Riley, C.L.S. Lewis, F.Y. Khattak, S. Topping, A.-M. McEvoy, J. Angulo, D. Neely   +6 more
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Thomson scattering

2022
Ignacio Enrique Olivares Bahamondes, Patrick Carrazana   +1 more
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Thomson Scattering Setup

2019
The development of Thomson scattering as a (plasma) diagnostic was enabled by powerful lasers, first the Ruby laser and then the Nd:YAG laser, predominantly used in high-temperature, high-density plasmas. High efficiency setups with strong stray-light suppression were developed (Kono, Nakatani in Rev Sci Instrum 71:2716–2721, 2000) to further extent ...
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Thomson Scattering

1994
Thomson scattering is a very powerful diagnostic which is applied at nearly every magnetic confinement device. Depending on the experimental conditions different plasma parameters can be diagnosed. When the wave vector is much larger than the plasma Debye length, the total scattered power is obtained by an incoherent summation over the scattered powers
openaire  

Continuum Theory of Thomson Scattering

Physical Review, 1968
The theory of incoherent (Thomson) scattering of electromagnetic waves by thermal fluctuations in a plasma is rederived using continuum equations instead of kinetic theory. Because of the inherent simplicity of this approach, it is possible to extend the theory by including the effect of density fluctuations of the neutral molecules upon the scattering.
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Thomson scattering and plasma oscillations

American Journal of Physics, 1988
A direct calculation shows that Thomson scattering—on the microscopic level—manifests itself as plasma oscillations—on the macroscopic level.
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Radiation Reaction and Thomson Scattering

AIP Conference Proceedings, 2007
In recent years high power high irradiance lasers of peta‐watt order have been or are under construction. In addition, in the next 10 years lasers of unprecedented powers, exa‐watt, could be built If lasers such as these are focused to very small spot sizes, extremely high laser irradiances will be achieved.
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Thomson scattering with impurities

2022
Ignacio Enrique Olivares Bahamondes, Patrick Carrazana   +1 more
openaire   +1 more source