Add to ORKGProgress in fusion research shows an increasing demand for diagnostics with high temporal and spatial resolution in order to study small and fast phenomena in fusion plasmas. Therefore, a new ten-channel pulsed radar reflectometer is under development for the TEXTOR Tokamak, to measure electron density profiles in the range of 0.4-4 X 10(19) m(-3) at a high repetition rate of 2 MHz. An additional feature of this diagnostic is the possibility to perform correlation measurements at 10 MHz repetition rate to investigate density fluctuations. The reflectometer will scan the plasma with 1-ns-long radar pulses in the 18-57 GHz range. In spite of the long flight time of the pulses of about 100 ns, the above mentioned high repetition rates could be...
This article describes the realization of a novel approach to short pulse (∼1 ns) reflectometry (SPR...
A dual-frequency microwave imaging reflectometry system was commissioned to measure both coherent an...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the adva...
Progress in fusion research shows an increasing demand for diagnostics with high temporal and spatia...
A ten-channel pulsed radar reflectometer is under development for the TEXTOR Tokamak. The frequency ...
A four-channel pulsed radar reflectometer has been developed for the Rijnhuizen Tokamak Project. The...
A new ten-channel pulsed radar reflectometer has been taken into operation at the Torus Experiment f...
new method to measure density profiles of thermonuclear plasmas with fast pulse radar is proposed. A...
International audiencen the fusion plasma for energy, mainly electromagnetic waves can be used to me...
The theoretical bases of the time fixation to the front of the reflected signals have been developed...
A novel frequency modulation scheme has been developed for the multi-channel reflectometer used to m...
The ultrashort-pulse reflectometry is considered as a tool for determining the electron density prof...
In high temperature fusion plasmas the transport of energy and particles is commonly believed to be ...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the. adv...
In high temperature fusion plasmas the transport of energy and particles is commonly believed to be ...
This article describes the realization of a novel approach to short pulse (∼1 ns) reflectometry (SPR...
A dual-frequency microwave imaging reflectometry system was commissioned to measure both coherent an...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the adva...
Progress in fusion research shows an increasing demand for diagnostics with high temporal and spatia...
A ten-channel pulsed radar reflectometer is under development for the TEXTOR Tokamak. The frequency ...
A four-channel pulsed radar reflectometer has been developed for the Rijnhuizen Tokamak Project. The...
A new ten-channel pulsed radar reflectometer has been taken into operation at the Torus Experiment f...
new method to measure density profiles of thermonuclear plasmas with fast pulse radar is proposed. A...
International audiencen the fusion plasma for energy, mainly electromagnetic waves can be used to me...
The theoretical bases of the time fixation to the front of the reflected signals have been developed...
A novel frequency modulation scheme has been developed for the multi-channel reflectometer used to m...
The ultrashort-pulse reflectometry is considered as a tool for determining the electron density prof...
In high temperature fusion plasmas the transport of energy and particles is commonly believed to be ...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the. adv...
In high temperature fusion plasmas the transport of energy and particles is commonly believed to be ...
This article describes the realization of a novel approach to short pulse (∼1 ns) reflectometry (SPR...
A dual-frequency microwave imaging reflectometry system was commissioned to measure both coherent an...
Understanding the behavior of fluctuations in magnetically confined plasmas is essential to the adva...