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Robin Devenish studied mathematics and physics at the University of Cambridge. After post-doctoral positions at Lancaster University and University College London, he joined the DESY laboratory in Hamburg in 1973. At DESY he worked on electron-positron annihilation physics with the PLUTO experiment on the DORIS and PETRA colliders. In 1979 he joined the Physics Department at Oxford University, continuing to work on e+e- physics at DESY, but now with the TASSO experiment. He was a founder member of the Oxford team that joined the ZEUS experiment at the electron-proton collider HERA (also at DESY). His work at HERA focused on using deep-inelastic scattering to probe experimental aspects of quantum chromodynamics. With Amanda Cooper-Sarkar he wrote the definitive text on `Deep-Inelastic Scattering' (OUP 2004). Tony Weidberg did a PhD at the University of Cambridge and then worked from 1982-1989 at CERN on the UA2 experiment at the CERN antiproton-proton collider. He worked on the discovery of the W and Z bosons and on the development of a novel scintillating fibre detector. He moved to Oxford in 1989 to work on silicon detector R&D for the LHC. He was a founding member of the ATLAS collaboration and jointly leads the Oxford ATLAS group which has become one of the largest university groups in ATLAS. He worked on the R&D for electrical and optical services for the ATLAS SemiConductor Tracker (SCT) and was responsible for the production and QA/QC for these subsystems. He worked on the analysis of some of the Standard Model measurements at the LHC. Giles Barr did his undergraduate degree in physics at the University of Oxford and continued at Oxford as a graduate student working on underground detector physics at the Soudan-2 experiment. There, he worked with Tom Gaisser and Todor Stanev on calculating the fluxes of neutrinos produced by cosmic rays in the atmosphere. After obtaining his doctorate in 1988, he moved to the CERN laboratory in Geneva to work on the direct CP violation search experiment NA31. After becoming a research scientist at CERN, he moved to the NA48 experiment, which further studied the phenomenon of direct CP violation in kaons. In 2000, he joined the faculty at the University of Oxford and moved back to neutrino physics, working first on the MINOS and then the T2K long-baseline neutrino experiments. He is currently working on the design of the next generation of long-baseline neutrino experiments, designed specifically to observe the CP violation in the neutrino sector, should it exist. Roman Walczak studied physics at the University of Warsaw where he was employed after graduation in 1977. Whilst affiliated with Warsaw, he spent large fraction of his time being involved in projects abroad, mostly at DESY and CERN. In 1981 he obtained Dr. rer. nat. degree from the Heidelberg University. His main expertise in particle physics is in design of wire chambers and calorimeters and on physics beyond SM as well as on some aspects of the QCD. He worked on projects at the following accelerators: PS, ISR, SPS at CERN, and PETRA and HERA at DESY. He is one of the founders of the ZEUS experiment. He was one the ZEUS coordinators responsible for designing, building and commissioning of the ZEUS detector. He also served as a coordinator of Exotic (i.e. Beyond SM) Physics Group. In 1993 he moved to Oxford as University Lecturer at the University of Oxford and Tutorial Fellow at Somerville College. He was promoted to Reader in 2008 and to Associate Professor in 2014.
`A comprehensive pedagogical account of the current state of particle physics, from some of the people involved in establishing the evidence-base for the Standard Model. It covers the required mathematical and experimental tools required in order to understand the way physics work, at the LHC and beyond.' Jonathan Butterworth, University College London `'Particle Physics in the LHC Era' lives up to its title indeed. This modern textbook covers all relevant aspects of the physics at the LHC. Remarkably, the authors succeeded in keeping the book at a level accessible to advanced undergraduates, from both the mathematical and physics perspective. I would not be surprised to see this outstanding textbook become a standard reference for decades to come! ' Oleg Brandt, Kirchhoff-Institut fur Physik, Heidelberg `This book has been missing from the education of contemporary particle physicists. It is written by world-class physicists with international reputation in research, who also have many years of teaching experience at the University of Oxford. The book not only provides the foundations of particle physics that are taught in advanced undergraduate and graduate courses, but also gives a novel experimentally-driven view on the subject matter. The authors have succeeded in making captivating links between physics concepts with at times complicated mathematical formulae and cutting-edge research that takes place at international laboratories, e.g. at CERN and the ground-breaking research at the LHC. Young physicists will learn how experimental physics research is conducted nowadays and will acquire the basic concepts to carry it out on their own in their future careers in physics. This is a book that should find its place in any physicist's bookshelf. ' Alessandro Tricoli, CERN
Relativity, Gravitation and Cosmology...
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A Brief History of Black Holes
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