D. Doering
SLAC National Accelerator Laboratory
12 Papers
26 Citations
D. Doering is an academic researcher from SLAC National Accelerator Laboratory. The author has contributed to research in topics: Pixel & High dynamic range. The author has an hindex of 4, co-authored 12 publications. Previous affiliations of D. Doering include Stanford University.
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Papers
Charge collection in irradiated HV-CMOS detectors
Bojan Hiti,A. A. Affolder,Kirk Arndt,Richard Bates,Mathieu Benoit,F. A. Di Bello,Andrew Blue,Daniela Bortoletto,M. Buckland,M. Buckland,Craig Buttar,P. Caragiulo,D. Das,D. Doering,Jens Dopke,Angelo Dragone,F. Ehrler,Vitaliy Fadeyev,W. Fedorko,Z. Galloway,H. M. X. Grabas,I. M. Gregor,Philippe Grenier,Alexander Grillo,Y. C. Han,Martin Hoeferkamp,L. B. A. H. Hommels,Todd Brian Huffman,J. J. John,K. Kanisauskas,K. Kanisauskas,C.J. Kenney,Gregor Kramberger,Zhijun Liang,Igor Mandić,Dzmitry Maneuski,F. Martinez-Mckinney,S. McMahon,S. McMahon,Lingxin Meng,Marko Mikuž,Marko Mikuž,Daniel Muenstermann,Richard Nickerson,Ivan Peric,P. Phillips,P. Phillips,R. Plackett,Francesco Rubbo,L. Ruckman,J. Segal,Sally Seidel,Abraham Seiden,Ian Shipsey,Wen Yi Song,Marcel Michael Stanitzki,D. Su,C. Tamma,Renato Turchetta,Luigi Vigani,J. Volk,Rui Wang,M R M Warren,F. F. Wilson,Steven Worm,Q. Xiu,Jie Zhang,H. Zhu +67 more
TL;DR: In this paper, active silicon detectors built on p-type substrate are evaluated for large area silicon trackers such as those at the High Luminosity LHC, but the radiation hardness of this novel approach has to be evaluated Active n-in-p strip detector prototypes CHESS2 for ATLAS with different substrate resistivities in the range of 20-1000 Ω cm were irradiated with neutrons and protons up to a fluence of 2 × 1 0 15 n eq cm − 2.
Performance of ePix10K, a high dynamic range, gain auto-ranging pixel detector for FELs.
Gabriel Blaj,Angelo Dragone,C.J. Kenney,Faisal T. Abu-Nimeh,P. Caragiulo,D. Doering,M. Kwiatkowski,J. Pines,M. Weaver,Sébastien Boutet,Gabriella Carini,C.-E. Chang,P. Hart,Jasmine Hasi,Matt J. Hayes,Ryan Herbst,J. Koglin,K. Nakahara,J. Segal,Gunther Haller +19 more
TL;DR: ePix10K as discussed by the authors is a hybrid pixel detector developed at SLAC for demanding free-electron laser (FEL) applications, providing an ultrahigh dynamic range (245 eV to 88 MeV) through gain auto-ranging.
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Read-Out Architecture of CRYO System-on-Chip ASIC for Noble Liquid TPC Detectors
Aseem Gupta,Aldo Pena-Perez,Bojan Markovic,D. Doering,B. Reese,Camillo Tamma,Hussein Ali,Pietro Caragiulo,Savino Petrignani,Lorenzo Rota,Kamath Umanath R,Xiaobin Xu,Faisal T. Abu-Nimeh,Angelo Dragone +13 more
- 01 Aug 2020
TL;DR: The implementation of the digital read-out architecture of a System-On-Chip (SoC) optimized for Time Projection Chamber (TPC) detectors used in neutrino science, implemented in 130 nm CMOS process is presented.
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Hammerhead, an ultrahigh resolution ePix camera for wavelength-dispersive spectrometers
Gabriel Blaj,Dileep Bhogadi,C.-E. Chang,D. Doering,C.J. Kenney,Thomas Kroll,J. Segal,Dimosthenis Sokaras,Gunther Haller +8 more
- 16 Jan 2019
TL;DR: In this paper, the authors presented a new approach, with a novel sensor design using rectangular pixels with a high aspect ratio (between strips and pixels, further called "strixels", and strixel redistribution to match the square pixel arrays of typical ASICs.
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Hammerhead, an ultrahigh resolution ePix camera for wavelength-dispersive spectrometers
Gabriel Blaj,Dileep Bhogadi,C.-E. Chang,D. Doering,C.J. Kenney,Thomas Kroll,M. Kwiatkowski,J. Segal,Dimosthenis Sokaras,Gunther Haller +9 more
TL;DR: In this article, the authors present a novel approach, with a sensor using rectangular pixels with a high aspect ratio (between strips and pixels), and strixel redistribution to match the square pixel arrays of typical ASICs while avoiding the considerable effort of redesigning ASICs.
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