Physics opportunities with the Advanced Gamma Tracking Array: AGATA
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Published:2020-05
Issue:5
Volume:56
Page:
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ISSN:1434-6001
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Container-title:The European Physical Journal A
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language:en
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Short-container-title:Eur. Phys. J. A
Author:
Korten W.ORCID, , Atac A., Beaumel D., Bednarczyk P., Bentley M. A., Benzoni G., Boston A., Bracco A., Cederkäll J., Cederwall B., Ciemała M., Clément E., Crespi F. C. L., Curien D., de Angelis G., Didierjean F., Doherty D. T., Dombradi Zs., Duchêne G., Dudek J., Fernandez-Dominguez B., Fornal B., Gadea A., Gaffney L. P., Gerl J., Gladnishki K., Goasduff A., Górska M., Greenlees P. T., Hess H., Jenkins D. G., John P. R., Jungclaus A., Kmiecik M., Korichi A., Labiche M., Leoni S., Ljungvall J., Lopez-Martens A., Maj A., Mengoni D., Million B., Nannini A., Napoli D., Nolan P. J., Nyberg J., Obertelli A., Pakarinen J., Pietralla N., Podolyák Zs., Quintana B., Raabe R., Rainovski G., Recchia F., Reiter P., Rudolph D., Simpson J., Theisen Ch., Tonev D., Tumino A., Valiente-Dobón J. J., Wieland O., Wimmer K., Zielińska M.
Abstract
AbstractNew physics opportunities are opening up by the Advanced Gamma Tracking Array, AGATA, as it evolves to the full 4$$\pi $$
π
instrument. AGATA is a high-resolution $$\gamma $$
γ
-ray spectrometer, solely built from highly segmented high-purity Ge detectors, capable of measuring $$\gamma $$
γ
rays from a few tens of keV to beyond 10 MeV, with unprecedented efficiency, excellent position resolution for individual $$\gamma $$
γ
-ray interactions, and very high count-rate capability. As a travelling detector AGATA will be employed at all major current and near-future European research facilities delivering stable and radioactive ion beams.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
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