A Feasibility Experiment of a W-powder Target

Nikolaos Charitonidis, Leonid Rivkin
2014
Discussion par affiche

The development of high‐powertargetsremains a key R&D actvity for future facilities presently under study like the Neutrino Factory, Muon Collider or upgraded high‐power super beams for long‐baseline neutrino experiments. The choice of materials to sustain the beam power ranging up to MW levels is not trivial.Granular solid targets have been proposed and are being studied as a candidate for such high-power target systems. In the recently commissioned HiRadMat facility at CERN, a feasibility experiment of a tungsten powder target was performed. The experiment was designed to explore for ﬁrst time the impact of a high‐power proton beam on a static W powder target in a thimble conﬁguration. The diagnostics of the experiment were based on remote high‐speed photography as well as on laser‐doppler vibration measurements of the target containers. Results from the experimental ﬁndings are presented in this poster.

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Nikolaos Charitonidis, Leonid Rivkin
2014
Discussion par affiche

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https://infoscience.epfl.ch/record/198975?ln=fr

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Tungstène

Le tungstène est l'élément chimique de numéro atomique 74, de symbole W (de l'allemand Wolfram). Son nom en français provient du suédois et et signifie donc « pierre lourde ». On trouve du tungstè

Neutrino

Le neutrino est une particule élémentaire du modèle standard de la physique des particules. Les neutrinos sont des fermions de , plus précisément des leptons. Ils sont électriquement neutres. Il en

Méthode expérimentale

Les méthodes expérimentales scientifiques consistent à tester la validité d'une hypothèse, en reproduisant un phénomène (souvent en laboratoire) et en faisant varier un paramètre. Le paramètre que l

Radiological assessment of the Tungsten Powder Test (HRM10) at HiRadMat

Nikolaos Charitonidis

Granular solid targets made of fluidised tungsten powder have been long proposed and are being studied as an alternative configuration towards high-power (>1MW beam power) target systems, suitable for a future Super Beam facility or Neutrino Factory. A feasibility experiment to evaluate this kind of target is being prepared to be performed at HiRadMat facility of CERN/SPS. Activation studies in order to assess the radiological risk from this experiment have been carried out, in order to estimate the necessary cooling time to access and handle the experimental equipment, and for defining the specialized laboratory class for the post-mortem examination of the sample.

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A FEASIBILITY EXPERIMENT OF A W-POWDER TARGET IN THE HIRADMAT FACILITY AT CERN

Nikolaos Charitonidis, Leonid Rivkin

Granular solid targets made of fluidized tungsten powder or a static pebble bed of tungsten spheres, have been proposed and are being studied as an alternative configuration for high-power (>1MW of beam power) target systems, suitable for a future Super Beam or Neutrino Factory. Due to the lack of experimental data on this field, a feasibility experiment was performed in HiRadMat facility of CERN to address the effect of the impact of the SPS beam (440 GeV/c) on a static tungsten powder target. Online instrumentation such as high-speed photography and laser-Doppler vibrometry was employed. Preliminary results show a powder disruption speed of less than 0.6 m/s at 3 1011 protons/pulse while the disruption speed appears to scale with the beam intensity.

2013

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Feasibility Experiment of a Granular Target for Future Neutrino Facilities

Nikolaos Charitonidis, Leonid Rivkin

Granular, solid targets made of fluidized tungsten powder or static pebble bed of tungsten spheres, have been proposed and are being studied as an alternative configurations towards high-power (1MW of beam power) target systems, suitable for a future Super Beam or Neutrino Factory. With the lack of experimental data on this field, a feasibility experiment was performed in HiRadMat facility of CERN/SPS that tried on a pulse-by-pulse basis to address the effect of the impact of the SPS beam (440GeV/c) on a static tungsten granular target. Online instrumentation such as high-speed photography and laser-Doppler vibrometry was employed. Preliminary results show a powder disruption speed of less than 0.6 m/s at 3E11 protons/pulse while the disruption speed appears to be scaling proportionally with the beam intensity.

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