The adaptive gain integrating pixel detector

Authors :: Allahgholi, A.
Becker, J.
Bianco, L.
Bradford, R.
Delfs, A.
Dinapoli, R.
Goettlicher, P.
Gronewald, M.
Graafsma, Heinz
Greiffenberg, D.
Henrich, B. H.
Hirsemann, H.
Jack, S.
Klanner, R.
Klyuev, A.
Krueger, H.
Lange, S.
Marras, A.
Mezza, D.
Mozzanica, A.
Perova, I.
Xia, Q.
Schmitt, B.
Schwandt, J.
Sheviakov, I.
Shi, X.
Trunk, U.
Zhang, J.
Allahgholi, A.
Becker, J.
Bianco, L.
Bradford, R.
Delfs, A.
Dinapoli, R.
Goettlicher, P.
Gronewald, M.
Graafsma, Heinz
Greiffenberg, D.
Henrich, B. H.
Hirsemann, H.
Jack, S.
Klanner, R.
Klyuev, A.
Krueger, H.
Lange, S.
Marras, A.
Mezza, D.
Mozzanica, A.
Perova, I.
Xia, Q.
Schmitt, B.
Schwandt, J.
Sheviakov, I.
Shi, X.
Trunk, U.
Zhang, J.
Publication Year :: 2016
Abstract: The adaptive gain integrating pixel detector (AGIPD) is a development of a collaboration between Deustsches Elektronen-Synchrotron (DESY), the Paul-Scherrer-Institute (PSI), the University of Hamburg and the University of Bonn. The detector is designed to cope with the demanding challenges of the European XFEL. Therefore it comes along with an adaptive gain stage allowing a high dynamic range, spanning from single photon sensitivity to 10(4) x 12.4 keV photons and 352 analogue memory cells per pixel. The aim of this report is to briefly explain the concepts of the AGIPD electronics and mechanics and then present recent experiments demonstrating the functionality of its key features.

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