To study the mechanism of anomalous transport in tokamaks requires the use of sophisticated diagnostic tools for the measurement of short-scale turbulent fluctuations. In this article, we describe an attempt at developing a technique capable of providing a comprehensive description of plasma fluctuations with k(subscript parallel rho i) < 1, such as such as those driven by the Ion Temperature Gradient mode in tokamaks. The proposed method is based on microwave reflectometry, and stems from a series of numerical calculations showing that the spatial structure of fluctuations near the cutoff could be obtained from the phase of reflected waves when these are collected with a wide aperture optical system forming an image of the cutoff onto a...
The first microwave imaging reflectometry (MIR) system for characterization of fluctuating plasma de...
MasterMicrowave Imaging Reflectometry (MIR) has been developed for unambiguous measurement of electr...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2001.Includes bibliographi...
This article describes a numerical study of microwave reflectometry for the measurement of turbulent...
Understanding the mechanism of anomalous transport in magnetically confined plasmas requires the use...
Microwave reflectometry is now routinely used for probing the structure of magnetohydrodynamic and t...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the. adv...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the adva...
While microwave reflectometry has proven to be a sensitive tool for measuring electron density fluct...
This paper describes a numerical study of the role played by 2D turbulent fluctuations in microwave ...
While microwave reflectometry has proven to be a sensitive tool for measuring electron density fluct...
We discuss a possibility to reconstruct turbulence fluctuation spectra from single channel microwave...
A dual-frequency microwave imaging reflectometry system was commissioned to measure both coherent an...
The Microwave Tokamak Experiment (MTX) at Lawrence Livermore National Laboratory investigated new me...
In high temperature fusion plasmas the transport of energy and particles is commonly believed to be ...
The first microwave imaging reflectometry (MIR) system for characterization of fluctuating plasma de...
MasterMicrowave Imaging Reflectometry (MIR) has been developed for unambiguous measurement of electr...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2001.Includes bibliographi...
This article describes a numerical study of microwave reflectometry for the measurement of turbulent...
Understanding the mechanism of anomalous transport in magnetically confined plasmas requires the use...
Microwave reflectometry is now routinely used for probing the structure of magnetohydrodynamic and t...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the. adv...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the adva...
While microwave reflectometry has proven to be a sensitive tool for measuring electron density fluct...
This paper describes a numerical study of the role played by 2D turbulent fluctuations in microwave ...
While microwave reflectometry has proven to be a sensitive tool for measuring electron density fluct...
We discuss a possibility to reconstruct turbulence fluctuation spectra from single channel microwave...
A dual-frequency microwave imaging reflectometry system was commissioned to measure both coherent an...
The Microwave Tokamak Experiment (MTX) at Lawrence Livermore National Laboratory investigated new me...
In high temperature fusion plasmas the transport of energy and particles is commonly believed to be ...
The first microwave imaging reflectometry (MIR) system for characterization of fluctuating plasma de...
MasterMicrowave Imaging Reflectometry (MIR) has been developed for unambiguous measurement of electr...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2001.Includes bibliographi...