Your search keyword '"nuclear instruments for hot plasma diagnostics"' showing total 6 results

1. Heterogeneous Online Computational Platform for GEM-Based Plasma Impurity Monitoring Systems.

Author

Linczuk, Paweł, Wojeński, Andrzej, Czarski, Tomasz, Kolasiński, Piotr, Zabołotny, Wojciech M., Poźniak, Krzysztof, Kasprowicz, Grzegorz, Cieszewski, Radosław, Chernyshova, Maryna, Malinowski, Karol, Mazon, Didier, Colnel, Julian, and Guibert, Denis

Abstract

The fusion energy research field presents many intricate challenges that require resolution. Many diagnostic systems employed in experiments are approaching the limits of current technology. Implementing efficient measurements requires using an appropriate set of tools to facilitate the optimal utilization of hardware. Fusion energy measurements must provide low latency processing with the capacity for future improvements and the ability to handle complex data flows efficiently. The presented work addresses these requirements and describes the implementation of a high-performance, low-latency software platform with convenient development for soft X-ray (SXR) plasma impurities emission tracing—the Asynchronous Complex Computation Platform (AC2P). This article presents the architectural design, implementation details, and performance and latency measurements based on the raw data acquired from the WEST tokamak and laboratory tests. AC2P provides the tools to develop low-latency, multi-core, multi-device complex data flow graph scale-up solutions for measuring impurities in hot plasmas. The system has been designed to operate online during experiments, calculate the energy distribution, position and occurrence time of SXR photons, monitor the data stream's quality and archive any abnormalities for subsequent offline verification and algorithm improvement. This article presents AC2P, which operates as part of the SXR measurement system on the WEST tokamak. [ABSTRACT FROM AUTHOR]

Published

2024

2. Heterogeneous Online Computational Platform for GEM-Based Plasma Impurity Monitoring Systems

Author

Paweł Linczuk, Andrzej Wojeński, Tomasz Czarski, Piotr Kolasiński, Wojciech M. Zabołotny, Krzysztof Poźniak, Grzegorz Kasprowicz, Radosław Cieszewski, Maryna Chernyshova, Karol Malinowski, Didier Mazon, Julian Colnel, and Denis Guibert

Subjects

heterogeneous systems, high-performance computing, nuclear instruments for hot plasma diagnostics, gas electron multiplier (GEM), micropattern gaseous detectors, data acquisition systems, Technology

Abstract

The fusion energy research field presents many intricate challenges that require resolution. Many diagnostic systems employed in experiments are approaching the limits of current technology. Implementing efficient measurements requires using an appropriate set of tools to facilitate the optimal utilization of hardware. Fusion energy measurements must provide low latency processing with the capacity for future improvements and the ability to handle complex data flows efficiently. The presented work addresses these requirements and describes the implementation of a high-performance, low-latency software platform with convenient development for soft X-ray (SXR) plasma impurities emission tracing—the Asynchronous Complex Computation Platform (AC2P). This article presents the architectural design, implementation details, and performance and latency measurements based on the raw data acquired from the WEST tokamak and laboratory tests. AC2P provides the tools to develop low-latency, multi-core, multi-device complex data flow graph scale-up solutions for measuring impurities in hot plasmas. The system has been designed to operate online during experiments, calculate the energy distribution, position and occurrence time of SXR photons, monitor the data stream’s quality and archive any abnormalities for subsequent offline verification and algorithm improvement. This article presents AC2P, which operates as part of the SXR measurement system on the WEST tokamak.

Published

2024

3. Advantages of Al based GEM detector aimed at plasma soft−semi hard X-ray radiation imaging.

Author

Chernyshova, Maryna, Malinowski, Karol, Czarski, Tomasz, Kowalska-Strzęciwilk, Ewa, Linczuk, Paweł, Wojeński, Andrzej, Krawczyk, Rafał Dominik, and Melikhov, Yevgen

Subjects

*HARD X-rays, *X-ray imaging, *DETECTORS, *PHOTOMULTIPLIERS, *ELECTRON gas

Abstract

Development of gaseous detectors, more specifically Gas Electron Multiplier (GEM) based detectors, for application at tokamak plasma radiation monitoring/imaging in Soft−Semi Hard X-ray (S−SH) region is an ongoing research activity aiming to deliver valuable information on plasma shape, magnetic configuration, non-axisymmetry phenomena of the plasma, etc. Wide radiation range and brightness of plasma radiation impose some restrictions on choice of materials in the detecting chamber, as their interaction with the incident radiation may disrupt original signals. This work proposes usage of aluminum as GEM foils electrodes for the first time. The detector based on these foils was constructed and examined. The operational characteristics and spectral capabilities of such detector were compared with the ones based on the standard (commonly used) copper GEM foils. The laboratory tests were performed using X-ray tube and 55Fe sources to examine detectors' capabilities in energy-resolved imaging. Additionally, simulations of origin and number of the generated electrons, which determine the detector signal, were performed for Al and Cu GEM foils for a wide energy range of incident photons. The experimental and modelling data demonstrated that Cu based GEM detector produces higher parasitic signal than Al one necessitating total elimination of copper from detector's chamber. [ABSTRACT FROM AUTHOR]

Published

2019

4. Study of the optimal configuration for a Gas Electron Multiplier aimed at plasma impurity radiation monitoring.

Author

Chernyshova, Maryna, Malinowski, Karol, Melikhov, Yevgen, Kowalska-Strzęciwilk, Ewa, Czarski, Tomasz, Wojeński, Andrzej, Linczuk, Paweł, and Krawczyk, Rafał D.

Subjects

*PHOTOMULTIPLIERS, *PLASMA impurities, *RADIATION dosimetry, *TOKAMAKS, *SOFT X rays

Abstract

Abstract For the purpose of monitoring the level of plasma impurity (especially tungsten) and its distribution reconstruction at tokamaks (ITER in particular), a Soft X-Ray (SXR) tomographic diagnostics based on Gas Electron Multiplier (GEM) detectors with energy discrimination has been extensively considered for a while. Coupled with advanced electronics, GEM detectors offer excellent time and space resolution, as well as a charge spectrum from which the SXR photon spectrum can be deconvolved. In addition, they are less subjected to a neutron damage as compared to standard semiconductor diodes. This contribution highlights the latest studies supporting the development of such diagnostics focusing on laboratory tests to examine: (a) the impact of GEM holes geometry on the properties and distribution of the electron avalanche; (b) the effect of the high rate photon flux on GEM foil performance; and (c) the optimal electric field distribution. [ABSTRACT FROM AUTHOR]

Published

2018

5. Development of GEM detector for tokamak SXR tomography system: Preliminary laboratory tests.

Author

Chernyshova, Maryna, Czarski, Tomasz, Malinowski, Karol, Kowalska-Strzęciwilk, Ewa, Król, Jerzy, Poźniak, Krzysztof T., Kasprowicz, Grzegorz, Zabołotny, Wojciech, Wojeński, Andrzej, Krawczyk, Rafał D., Kolasiński, Piotr, Demchenko, Iraida N., and Melikhov, Yevgen

Subjects

*TOKAMAKS, *TOMOGRAPHY, *PLANAR motion, *CARBON dioxide, *ARGON

Abstract

The GEM based detecting system is currently being developed for poloidal tomography to be used at WEST project tokamak. It consists of two GEM detectors of planar and of cylindrical geometry for the vertical and horizontal ports, respectively. Several laboratory tests were conducted to assess the performance of the prototype detectors and verify the proposed design. For that, the measurements of the detectors with 55 Fe source and X-ray generator were performed. The detector’s behavior was tested for two gas mixtures: Ar/CO 2 and Ar/CO 2 /CF 4 and the detector amplification dependencies on high photon flux, start-up and applied high voltages are demonstrated. The cluster sizes of the generated anode charge and energy resolution are also provided. [ABSTRACT FROM AUTHOR]

Published

2017

6. Effect of charging-up and regular usage on performance of the triple GEM detector to be employed for plasma radiation monitoring.

Author

Chernyshova, Maryna, Malinowski, Karol, Czarski, Tomasz, Demchenko, Iraida N., Melikhov, Yevgen, Kowalska-Strzęciwilk, Ewa, Wojeński, Andrzej, and Krawczyk, Rafał D.

Subjects

*PLASMA radiation, *RADIATION dosimetry, *CONTROLLED fusion, *DETECTORS, *PHOTOMULTIPLIERS, *NEUTRON counters

Abstract

• GEM detectors are developed to be applied in plasma physics with high rate capability. • Charging-up effect of the detector window material has been examined. • Characteristics of aluminized Mylar window clearly affect detector's effective gain. • Graphene layers or DLC coatings are considered as new materials for SXR region. After the problem of high-temperature plasma confinement, construction of diagnostics that is able to identify plasma contamination with impurities and to determine impurity distribution is another critically important issue. Solution of this problem would enable progress towards the success in controlled thermonuclear fusion. A new diagnostics, based on Gas Electron Multiplier (GEM) technology, has been recently developed for poloidal tomography focused on radiation of the metal impurities by monitoring in Soft X-Ray (SXR) region. GEM based detectors would undergo much less damage by neutrons than standard semiconductor diodes which results in better operational stability. This paper emphasizes the results of the latest examination of this type of detectors, showing influence of the charging-up effect on the detector performance and its physical properties for expected plasma radiation intensity. In addition, an undesired influence of aging of the detector window's material on the performance of the GEM detector is also shown: regular (moderate or active) usage could lead to changes of material's morphology as well as its composition. This study confirms the importance of further research into material's optimization of GEM detectors used as a base for SXR tomographic diagnostics aimed to work under different plasma radiation conditions. [ABSTRACT FROM AUTHOR]

Published

2020