Add to ORKGThis paper describes the design and operation of a 40-spatial channel Thomson scattering system that uses multiple 20 Hz Nd:YAG lasers to measure the electron temperature and density profiles periodically throughout an entire plasma discharge. Interference filter polychromators disperse the scattered light which is detected by silicon avalanche photodiodes. The measurable temperature range from 10 eV to 20 keV and the minimum detectable density is about 2 {times} 10{sup 18} m{sup {minus}3}. Laser control and data acquisition are performed in real-time by a VME-based microcomputer. Data analysis is performed by a MicroVAX 3400. Unique features of this system include burst mode'' operation, where multiple lasers are fired in rapid succession ...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
In December 2003 a new 10 kHz multiposition Thomson scattering diagnostic with high spatial resoluti...
Abstract. Thomson scattering technique based on high power laser has already proved its super-oirity...
This paper describes the design and operation of a 40 spatial channel Thomson scattering system that...
One of the diagnostic systems critical to the success of the DIII-D tokamak experiment is the Thomso...
In this article, the use of an 8 x 8-matrix independent 10-stage dynode multichannel photomultiplier...
The main challenge for the Thomson scattering (TS) diagnostic on the TEXTOR tokamak is the detailed ...
In late 2003 a 10 kHz multiposition Thomson scattering diagnostic with high spatial resolution becam...
The main challenge for the Thomson scattering (TS) diagnostic on the TEXTOR tokamak is the detailed ...
A high resolution multiposition Thomson scattering setup to measure the electron temperature (T-e) a...
A laser Thomson scattering system was developed especially for measurement of electron temperature a...
Advanced Thomson Scattering (TS) diagnostics with a Laser Intra-cavity Multi-pass Probing (LIMP) sys...
The Thomson scattering (TS) will be one of crucial plasma diagnostics of the COMPASS tokamak. This ...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
In December 2003 a new 10 kHz multiposition Thomson scattering diagnostic with high spatial resoluti...
Abstract. Thomson scattering technique based on high power laser has already proved its super-oirity...
This paper describes the design and operation of a 40 spatial channel Thomson scattering system that...
One of the diagnostic systems critical to the success of the DIII-D tokamak experiment is the Thomso...
In this article, the use of an 8 x 8-matrix independent 10-stage dynode multichannel photomultiplier...
The main challenge for the Thomson scattering (TS) diagnostic on the TEXTOR tokamak is the detailed ...
In late 2003 a 10 kHz multiposition Thomson scattering diagnostic with high spatial resolution becam...
The main challenge for the Thomson scattering (TS) diagnostic on the TEXTOR tokamak is the detailed ...
A high resolution multiposition Thomson scattering setup to measure the electron temperature (T-e) a...
A laser Thomson scattering system was developed especially for measurement of electron temperature a...
Advanced Thomson Scattering (TS) diagnostics with a Laser Intra-cavity Multi-pass Probing (LIMP) sys...
The Thomson scattering (TS) will be one of crucial plasma diagnostics of the COMPASS tokamak. This ...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
A highly sensitive imaging Thomson scattering system was developed for low temperature (0.1–10 eV) p...
In December 2003 a new 10 kHz multiposition Thomson scattering diagnostic with high spatial resoluti...
Abstract. Thomson scattering technique based on high power laser has already proved its super-oirity...