E. Johnson
Rutherford Appleton Laboratory
8 Papers
15 Citations
E. Johnson is an academic researcher from Rutherford Appleton Laboratory. The author has contributed to research in topics: International Linear Collider & Image sensor. The author has an hindex of 4, co-authored 5 publications.
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Papers
Progress with vertex detector sensors for the International Linear Collider
S. D. Worm,Y. Banda,C. K. Bowdery,Craig Buttar,Peter Clarke,David Cussans,C. Damerell,Gavin Davies,E. Devetak,E. Devetak,J. Fopma,B. Foster,Rui Gao,A. R. Gillman,Joel Goldstein,T. Greenshaw,M. Grimes,Kristian Harder,B. M. Hawes,Helen F Heath,S. Hillert,Ben Jeffery,E. Johnson,N. Kundu,Victoria Jane Martin,P. G. Murray,A. Nichols,Andrei Nomerotski,Val O'Shea,C. Parkes,Colin Perry,T. Woolliscroft,Andre Sopczak,Konstantin D. Stefanov,S.L. Thomas,Tuomo Tikkanen,Shiming Yang,Z. Zhang +37 more
TL;DR: In the past year, the Linear Collider Flavour Identification (LCFI) Collaboration has taken significant steps towards having a sensor suitable for use in the silicon vertex detector of the International Linear Collider (ILC) as mentioned in this paper.
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First results of the ISIS1 beam test
Jaap Velthuis,David Cussans,Joel Goldstein,S. Mandry,Konstantin D. Stefanov,Z. Zhang,Y. Banda,Alexander Cheplakov,C.J.S. Damerell,E. Devetak,J. Fopma,Rui Gao,T. Greenshaw,Mark Grimes,Helen F Heath,S. Hillert,E. Johnson,A. Laing,C. Lynch,Victoria Jane Martin,P. G. Murray,A. Nomerotski,S.L. Thomas,R. Walsh,T. Woolliscroft,S. D. Worm +25 more
TL;DR: In situ storage image sensor (ISIS) as mentioned in this paper is a monolithic active pixel sensor with memory cells in each pixel, which can be read out between bunch trains at a relatively low clock speed, hence limiting power consumption.
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Results from the ISIS1 detector
David Cussans,Joel Goldstein,Oliver D Payton,T. Stuttard,S. Mandry,Jaap Velthuis,Konstantin D. Stefanov,Z. Zhang,Y. Banda,Alexander Cheplakov,C.J.S. Damerell,E. Devetak,J. Fopma,Rui Gao,T. Greenshaw,Mark Grimes,Helen F Heath,S. Hillert,E. Johnson,A. Laing,C. Lynch,Victoria Jane Martin,P. G. Murray,A. Nomerotski,S.L. Thomas,R. Walsh,T. Woolliscroft,S. D. Worm +27 more
TL;DR: The In Situ Storage Image Sensor (ISIS) as mentioned in this paper is a monolithic active pixel sensor with memory cells in each pixel, implemented as a CCD register, which is used for tracking charged particles.
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Feasibility of slow-extracted high-energy ions from the cern proton synchrotron for charm
Matthew P. Fraser,Ruben Garcia Alia,P. A. Arrutia Sota,Kacper Bilko,Nikolaos Charitonidis,Salvatore Danzeca,M. Delrieux,M Duraffourg,Natalia Emriskova,Luigi Salvatore Esposito,A. Guerrero,O. Hans,G. Imesch,E. Johnson,Giuseppe Lerner,Giuseppe Pezzullo,I. Ortega,Daniel Prelipcean,Federico Ravotti,Federico Roncarolo,Andreas Waets +20 more
TL;DR: The CERN High Energy Accelerator Mixed-field (CHARM) High-energy Ions for Micro Electronics Reliability Assurance (CHIMERA) working group is investigating the feasibility of delivering high energy ion beams to the CHARM facility for the study of radiation effects to electronics components engineered to operate in harsh radiation environments, such as space or high-energy accelerators as mentioned in this paper .
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Charge shielding in the In-situ Storage Image Sensor for a vertex detector at the ILC
Z. Zhang,Konstantin D. Stefanov,D. Bailey,Y. Banda,Craig Buttar,Alexander Cheplakov,David Cussans,C.J.S. Damerell,E. Devetak,J. Fopma,B. Foster,Rui Gao,A. R. Gillman,Joel Goldstein,T. Greenshaw,Mark Grimes,R. Halsall,Kristian Harder,B. M. Hawes,K. Hayrapetyan,Helen F Heath,S. Hillert,David A. Jackson,T. Pinto Jayawardena,B. Jeffery,J. J. John,E. Johnson,N. Kundu,A. Laing,T. Lastovicka,W. Lau,Y. Li,A. Lintern,C. Lynch,S. Mandry,Victoria Jane Martin,P. G. Murray,A. Nichols,Andrei Nomerotski,R. Page,C. Parkes,Carole C. Perry,Val O'Shea,Andre Sopczak,H. Tabassam,S.L. Thomas,Tuomo Tikkanen,Jaap Velthuis,R. Walsh,T. Woolliscroft,S. D. Worm +50 more
TL;DR: The In-situ Storage Image Sensor (ISIS) as discussed by the authors is one of the most promising detector technologies for vertexing at the International Linear Collider Flavour Identification (ILC).
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