Dean Karlen Person1 #685229 R.M. Pearce Professor of Physics, University of Victoria and TRIUMF |

- Prof. Karlen has participated in particle physics experiments around the world. Beginning in the 1980s with the Mark-II experiment at SLAC, USA, and then in the 1990s with the OPAL experiment at CERN, Switzerland, he studied aspects of the standard model of particle physics with high energy electron-positron collisions. In the early 2000s, he helped lead the effort to develop and demonstrate the performance of a new type of precision detector, known as a micropattern Time Projection Chamber, for a future high energy linear electron-positron collider. He then led the project to incorporate this technology into the long baseline neutrino experiment, T2K in Japan, where three large volume detectors have been operating in the underground near detector facility since 2009. Prof. Karlen is the principle investigator for projects funded by the Canadian Foundation for Innovation and Provincial governments to build a superconducting electron accelerator and expand isotope production capabilities at TRIUMF, as part of the ARIEL project. From 2011-2017 he was director of the Victoria Subatomic Physics and Accelerator Research Centre (VISPA).
- Prior to coming to the University of Victoria and TRIUMF in 2002, Prof. Karlen was a professor in the Department of Physics at Carleton University, in Ottawa.
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CitationsAdd new citationList by: CiterankMap Link[1] Characterizing the spread of CoViD-19
Author: Dean Karlen Publication date: 14 July 2020 Publication info: arXiv:2007.07156 Cited by: David Price 2:27 PM 14 September 2022 GMT Citerank: (2) 685208python Population ModellerThe pyPM.ca software was developed to study and characterize the CoViD-19 epidemic.122C78CB7, 690180British Columbia COVID-19 GroupThe BC COVID-19 Modelling Group works on rapid response modelling of the COVID-19 pandemic, with a special focus on British Columbia and Canada.10015D3D3AB URL: DOI: https://doi.org/10.48550/arXiv.2007.07156
| Excerpt / Summary Since the beginning of the epidemic, daily reports of CoViD-19 cases, hospitalizations, and deaths from around the world have been publicly available. This paper describes methods to characterize broad features of the spread of the disease, with relatively long periods of constant transmission rates, using a new population modeling framework based on discrete-time difference equations. Comparative parameters are chosen for their weak dependence on model assumptions. Approaches for their point and interval estimation, accounting for additional sources of variance in the case data, are presented. These methods provide a basis to quantitatively assess the impact of changes to social distancing policies using publicly available data. As examples, data from Ontario and German states are analyzed using this framework. German case data show a small increase in transmission rates following the relaxation of lock-down rules on May 6, 2020. By combining case and death data from Germany, the mean and standard deviation of the time from infection to death are estimated. |
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