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个人简介
Teaching and Research:
Professor Vetter teaches the core NE104 course, “Radiation Detection and Nuclear Instrumentation Laboratory” which combines lectures and laboratory work to teach the basic concepts, implementations, and operations in radiation detection. In addition, he teaches NE107, “Introduction to Imaging”, an introduction to medical imaging physics and systems, including X-ray radiography and Computed Tomography (CT), radionuclide imaging (planar imaging as well as Single Photon Emission Computed Tomography (SPECT) and Positron Emission Tomography (PET)), and Magnetic Resonance Imaging (MRI). Examples of advanced concepts that are being discussed are the recently developed phase-contrast X-ray imaging and hyper-polarization MRI. Professor Vetter also teaches the graduate level course NE204, “Advanced Concepts in Radiation Detection”. This course combines lectures and experiments, focusing on advanced concepts in radiation detection ranging from basic and advanced digital filters for signal processing in semiconductor and scintillator detectors to radiation imaging.
Areas of Interest:
Professor Vetter’s research interests range from fundamental physics to biomedical imaging and homeland security. He is authored and co-authored over 150 peer-reviewed publications. He is also heads the Applied Nuclear Physics program at Lawrence Berkeley National Laboratory. This program entails almost all aspects of radiation detection including the detector fabrication, readout, integration and signal processing.
In addition to his research and teaching activities, Professor Vetter heads the recently established Institute for Resilient Communities. This institute is dedicated to providing tools that enhance resilience in communities locally and globally. The goal is to minimize the impact associated with sudden or long-term changes induced by human actions or nature. To achieve this goal, it combines science, technology, education, and outreach and involves academic and educational institutions as well as communities in an international, multi-disciplinary, and multi-cultural context.
The Institute for Resilient Communities provides a framework for research, education, and community involvement to minimize the physical and psychological impact of future disruptive events and developments. It provides a forum for dialogue among researchers, educators, decision makers, and communities locally and globally.
As an example, the 2011 events at the Fukushima Daiichi Nuclear Power Plant in Japan highlighted the unmet need to enhance resilience to radiological and nuclear accidents. The incident and associated large releases of radioactive materials had and continue to have an enormous societal and economic impact on Japan and globally. Although no casualties and health effects have been and likely will be attributable directly to radiation, these events have manifold and substantial impact on local communities and have provoked ongoing anxiety and concerns around the world.
Professor Vetter teaches the core NE104 course, “Radiation Detection and Nuclear Instrumentation Laboratory” which combines lectures and laboratory work to teach the basic concepts, implementations, and operations in radiation detection. In addition, he teaches NE107, “Introduction to Imaging”, an introduction to medical imaging physics and systems, including X-ray radiography and Computed Tomography (CT), radionuclide imaging (planar imaging as well as Single Photon Emission Computed Tomography (SPECT) and Positron Emission Tomography (PET)), and Magnetic Resonance Imaging (MRI). Examples of advanced concepts that are being discussed are the recently developed phase-contrast X-ray imaging and hyper-polarization MRI. Professor Vetter also teaches the graduate level course NE204, “Advanced Concepts in Radiation Detection”. This course combines lectures and experiments, focusing on advanced concepts in radiation detection ranging from basic and advanced digital filters for signal processing in semiconductor and scintillator detectors to radiation imaging.
Areas of Interest:
Professor Vetter’s research interests range from fundamental physics to biomedical imaging and homeland security. He is authored and co-authored over 150 peer-reviewed publications. He is also heads the Applied Nuclear Physics program at Lawrence Berkeley National Laboratory. This program entails almost all aspects of radiation detection including the detector fabrication, readout, integration and signal processing.
In addition to his research and teaching activities, Professor Vetter heads the recently established Institute for Resilient Communities. This institute is dedicated to providing tools that enhance resilience in communities locally and globally. The goal is to minimize the impact associated with sudden or long-term changes induced by human actions or nature. To achieve this goal, it combines science, technology, education, and outreach and involves academic and educational institutions as well as communities in an international, multi-disciplinary, and multi-cultural context.
The Institute for Resilient Communities provides a framework for research, education, and community involvement to minimize the physical and psychological impact of future disruptive events and developments. It provides a forum for dialogue among researchers, educators, decision makers, and communities locally and globally.
As an example, the 2011 events at the Fukushima Daiichi Nuclear Power Plant in Japan highlighted the unmet need to enhance resilience to radiological and nuclear accidents. The incident and associated large releases of radioactive materials had and continue to have an enormous societal and economic impact on Japan and globally. Although no casualties and health effects have been and likely will be attributable directly to radiation, these events have manifold and substantial impact on local communities and have provoked ongoing anxiety and concerns around the world.
研究兴趣
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IEEE Transactions on Radiation and Plasma Medical Sciencesno. 1 (2023): 75-82
arXiv (Cornell University) (2023)
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PHYSICS IN MEDICINE AND BIOLOGYno. 24 (2023)
arxiv(2023)
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K. Alfonso, A. Armatol, C. Augier,F. T. Avignone III,O. Azzolini,M. Balata, A. S. Barabash,G. Bari, A. Barresi, D. Baudin,F. Bellini,G. Benato,
Hard X-Ray, Gamma-Ray, and Neutron Detector Physics XXIV (2022)
N. Abgrall,M. Amman,I. J. Arnquist,F. T. Avignone III,A. S. Barabash, C. J. Barton, P. J. Barton,F. E. Bertrand, B. Bos, A. W. Bradley,T. H. Burritt, M. Busch,
G. Fantini, A. Armatol, E. Armengaud,W. Armstrong, C. Augier,F. T. Avignone III,O. Azzolini, A. Barabash,G. Bari, A. Barresi, D. Baudin,F. Bellini,
Journal of Low Temperature Physicsno. 5-6 (2022): 1024-1031
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