Development of a set of movable electrostatic probes to characterize the plasma in the ITER neutral beam negative-ion source prototype

We present the development and first use of a set of movable electrostatic probes on the full-scale ITER heating neutral beam prototype negative-ion source SPIDER. The probes access the ion source plasma from the multi-aperture accelerator aiming at the study of the plasma formation and expansion fr...

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Veröffentlicht in:	Fusion engineering and design 2021-08, Vol.169, p.112424, Article 112424
Hauptverfasser:	Sartori, E., Brombin, M., Laterza, B., Zuin, M., Cavazzana, R., Cervaro, V., Degli Agostini, F., Fadone, M., Fasolo, D., Grando, L., Jain, P., Kisaki, M., Maistrello, A, Moro, G, Pimazzoni, A., Poggi, C., Segalini, B., Shepherd, A., Spolaore, M., Taliercio, C., Tollin, M., Ugoletti, M., Veltri, P., Zamengo, A., Serianni, G.
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Sprache:	eng
Schlagworte:	Analyzers Beam sources Distribution functions Electrostatic probes Heat flux Ion energy distribution Ion extraction Ion sources Ions ITER heating neutral beam injector Negative ions Neutral beams Plasma Plasma drift Plasma jets Prototypes Prototyping
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creator	Sartori, E. Brombin, M. Laterza, B. Zuin, M. Cavazzana, R. Cervaro, V. Degli Agostini, F. Fadone, M. Fasolo, D. Grando, L. Jain, P. Kisaki, M. Maistrello, A Moro, G Pimazzoni, A. Poggi, C. Segalini, B. Shepherd, A. Spolaore, M. Taliercio, C. Tollin, M. Ugoletti, M. Veltri, P. Zamengo, A. Serianni, G.
description	We present the development and first use of a set of movable electrostatic probes on the full-scale ITER heating neutral beam prototype negative-ion source SPIDER. The probes access the ion source plasma from the multi-aperture accelerator aiming at the study of the plasma formation and expansion from the RF drivers through the transverse magnetic filter. The magnetic filter separates the relatively high electron-temperature region for plasma formation and hydrogen dissociation form the negative-ion extraction region in which low electron-temperature is required to avoid negative-ion destruction, but also causes non-uniformities and drifts in the large plasma discharge which will be studied by this setup. The set of electrostatic probes encompasses eight RF-compensated Langmuir probes, one double probe, one Mach probe for the assessment of plasma drift velocities, and two gridded retarding field energy analyzers to measure the positive-ion energy distribution function. Electric aspects as well as mechanical constraints given by the large in-vacuum movable structure, and thermal requirements of these relatively heat-flux components made the design challenging. Prototyping and commissioning of the measurement system is discussed offering examples of measured characteristics with the various probes.
doi_str_mv	10.1016/j.fusengdes.2021.112424
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The probes access the ion source plasma from the multi-aperture accelerator aiming at the study of the plasma formation and expansion from the RF drivers through the transverse magnetic filter. The magnetic filter separates the relatively high electron-temperature region for plasma formation and hydrogen dissociation form the negative-ion extraction region in which low electron-temperature is required to avoid negative-ion destruction, but also causes non-uniformities and drifts in the large plasma discharge which will be studied by this setup. The set of electrostatic probes encompasses eight RF-compensated Langmuir probes, one double probe, one Mach probe for the assessment of plasma drift velocities, and two gridded retarding field energy analyzers to measure the positive-ion energy distribution function. Electric aspects as well as mechanical constraints given by the large in-vacuum movable structure, and thermal requirements of these relatively heat-flux components made the design challenging. 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The probes access the ion source plasma from the multi-aperture accelerator aiming at the study of the plasma formation and expansion from the RF drivers through the transverse magnetic filter. The magnetic filter separates the relatively high electron-temperature region for plasma formation and hydrogen dissociation form the negative-ion extraction region in which low electron-temperature is required to avoid negative-ion destruction, but also causes non-uniformities and drifts in the large plasma discharge which will be studied by this setup. The set of electrostatic probes encompasses eight RF-compensated Langmuir probes, one double probe, one Mach probe for the assessment of plasma drift velocities, and two gridded retarding field energy analyzers to measure the positive-ion energy distribution function. Electric aspects as well as mechanical constraints given by the large in-vacuum movable structure, and thermal requirements of these relatively heat-flux components made the design challenging. 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The probes access the ion source plasma from the multi-aperture accelerator aiming at the study of the plasma formation and expansion from the RF drivers through the transverse magnetic filter. The magnetic filter separates the relatively high electron-temperature region for plasma formation and hydrogen dissociation form the negative-ion extraction region in which low electron-temperature is required to avoid negative-ion destruction, but also causes non-uniformities and drifts in the large plasma discharge which will be studied by this setup. The set of electrostatic probes encompasses eight RF-compensated Langmuir probes, one double probe, one Mach probe for the assessment of plasma drift velocities, and two gridded retarding field energy analyzers to measure the positive-ion energy distribution function. 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subjects	Analyzers Beam sources Distribution functions Electrostatic probes Heat flux Ion energy distribution Ion extraction Ion sources Ions ITER heating neutral beam injector Negative ions Neutral beams Plasma Plasma drift Plasma jets Prototypes Prototyping
title	Development of a set of movable electrostatic probes to characterize the plasma in the ITER neutral beam negative-ion source prototype
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