DEPFET active pixel detectors for a future linear e+e− collider

Yaschenko,S,; ter,T, Schlü; Alonso, Omar; Wermes,N,; Casanova, R.; Wilk,F,; Dieguez, Angel; Vos,M,; Dingfelder, J.; Weiler,T,; Hemperek, Tomaz; Kishishita, T.; Wassatsch,A,; Kleinohl, T.; Krueger, H.; Koch, Martin; Luetticke, F.; Kruger, H.; Lemarenko, M.; Koch,M,; Lutticke, F.; Krüger,H,; Marinas, C.; Lütticke, F.; Schnell, Michael; Campbell,A,; Wermes, Norbert; Ferber,T,; Campbell, Arnett; Ferber, T.; Kleinwort,C,; Kleinwort, C.; Niebuhr,C,; Niebuhr, C.; Soloviev,Y,; Soloviev, Y.; Steder,M,; Steder, M.; Volkenborn, R.; Fischer,P,; Yaschenko, S.; Peric,I,; Fischer, P.; Kreidl, C.; Peric, Ivan; Knopf, J.; Ritzert, Michael; Moya,D,; Curras, E.; Garcia Garcia, Ignacio; Lopez-Virto, A.; Vila,I,; Moya, D.; Boronat,M,; Vila, I.; Esperante,D,; Boronat, M.; Esperante, D.; Fuster,J,; Fuster, J.; Garcia,I, Garcia; Lacasta,C,; Oyanguren,A,; Lacasta, Carlos; Oyanguren, A.; Ruiz,P,; Ruiz, Pablo; Timon,G,; Timon, G.; Kuehn, W.; Gessler,T,; Kühn,W,; Vos, Marcel; Gessler, Thomas; Kuhn, W.; Lange, Stanislav; Muenchow, D.; Lange,S,; Munchow, D.; Spruck, Bjorn; Münchow,D,; Frey, A.; Spruck,B,; Geisler, C.; Schwenker, B.; Frey,A,; Wilk, F.; Schwenker,B,; Barvich, T.; Barvich,T,; Heck, Martijn; Heindl, S.; Heck,M,; Lutz, O.; Mueller, T. H.; Muller, T.-H.; Lutz,O,; Pulvermacher, C.; Müller,Th,; Simonis, H. J.; Weiler, T.; Pulvermacher,C,; Simonis,H J.,; Krausser, T.; Lipsky, O.; Rummel,S,; Rummel, Steve; Schlueter, T.; Schieck, J.; Schieck,J,; Schluter, T.; Ackermann, K.; Andricek,L,; Andricek, L.; Dalseno,J,; Chekelian, V.; Kiesling,C,; Chobanova, V.; Koffmane,C,; Dalseno, J.; Kiesling, Christian; Gioi,L, Li; Koffmane, C.; Li Gioi, L.; Gioi, L. Li; Moll,A,; Moll, A.; Müller,F,; Moser, H. G.; Mueller, F.; Nedelkovska,E,; Muller, F.; Nedelkovska, E.; Ninkovic,J,; Ninkovic, J.; Petrovics,S,; Petrovics, S.; Prothmann, K.; Prothmann,K,; Richter, Rudolf; Richter,R,; Ritter, A.; Ritter,A,; Ritter, Martin; Ritter,M,; Simon, Felix; Simon,F,; Vanhoefer, P.; Vanhoefer,P,; Wassatsch, Andreas; Dolezal,Z,; Dolezal, Z.; Drasal, Z.; Kodys,P,; Kodys, P.; Kvasnicka,P,; Kvasnicka, P.; Scheirich,J,; Scheirich, J.

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Institute of Electrical and Electronics Engineers, IEEE Transactions on Nuclear Science, 2(60), p. 1457-1465

DOI: 10.1109/tns.2013.2245680

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DEPFET active pixel detectors for a future linear e+e− collider

Journal article published in 2010 by Yaschenko,S, Schlü ter,T, Omar Alonso, Wermes,N, R. Casanova, Wilk,F, Angel Dieguez, Vos,M, J. Dingfelder, Weiler,T, Tomaz Hemperek, T. Kishishita, Wassatsch,A, T. Kleinohl, H. Krueger and other authors.

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Abstract

The DEPFET collaboration develops highly granular, ultra-transparent active pixel detectors for high-performance vertex reconstruction at future collider experiments. The characterization of detector prototypes has proven that the key principle, the integration of a first amplification stage in a detector-grade sensor material, can provide a comfortable signal to noise ratio of over 40 for a sensor thickness of 50-75 μm. ASICs have been designed and produced to operate a DEPFET pixel detector with the required read-out speed. A complete detector concept is being developed, including solutions for mechanical support, cooling, and services. In this paper, the status of the DEPFET R & D project is reviewed in the light of the requirements of the vertex detector at a future linear e(+)e(-) collider.

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DEPFET active pixel detectors for a future linear e+e− collider

Abstract