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Pulse dilation gas Cherenkov detector for ultra-fast gamma reaction history at the NIF (invited)

The Cherenkov mechanism used in Gas Cherenkov Detectors (GCDs) is exceptionally fast. However, the temporal resolution of GCDs, such as the Gamma Reaction History diagnostic at the National Ignition Facility (NIF), has been limited by the current state-of-the-art photomultiplier tube technology to ~...

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Bibliographic Details
Published in:Review of scientific instruments 2018-10, Vol.89 (10)
Main Authors: Geppert-Kleinrath, H., Herrmann, H. W., Kim, Y. H., Zylstra, A. B., Meaney, K., Lopez, F. E., Pederson, B. J., Carrera, J., Khater, H., Horsfield, C. J., Rubery, M. S., Gales, S., Leatherland, A., Meadowcroft, A., Hilsabeck, T., Kilkenny, J. D., Malone, R. M., Hares, J. D., Dymoke-Bradshaw, A. K. L., Milnes, J., McFee, C.
Format: Article
Language:English
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Summary:The Cherenkov mechanism used in Gas Cherenkov Detectors (GCDs) is exceptionally fast. However, the temporal resolution of GCDs, such as the Gamma Reaction History diagnostic at the National Ignition Facility (NIF), has been limited by the current state-of-the-art photomultiplier tube technology to ~100 ps. The soon-to-be deployed Pulse Dilation Photomultiplier Tube (PD-PMT) at NIF will allow for temporal resolution comparable to that of the gas cell or ~10 ps. Enhanced resolution will contribute to the quest for ignition in a crucial way through precision measurements of reaction history and ablator areal density (ρR) history, leading to better constrained models. Features such as onset of alpha heating, shock reverberations, and burn truncation due to dynamically evolving failure modes may become visible for the first time. Test measurements of the PD-PMT at Atomic Weapons Establishment confirmed that design goals have been met. The PD-PMT provides dilation factors of 2 to 40× in 6 increments. Furthermore, the GCD-3 recently deployed at the NIF has been modified for coupling to a PD-PMT and will soon be making ultrafast measurements.
ISSN:0034-6748
1089-7623