This book explores new experimental techniques and theoretical models to deepen an understanding of radiation effects and ion interaction processes in order to design materials for devices for the emerging quantum technology era.
Applications include tailored sensors that respond to ionizing radiation and other electromagnetic phenomena; sensors with high radiation hardness; and materials that contain specific engineered defects with desirable optical, magnetic, or electrical properties.
The chapters detail direct experimental investigations into the dynamics of radiation-induced defects, including their generation, annihilation, and transformation, on a time scale ranging from femto-seconds to seconds which requires a more detailed understanding to develop the potential of ion beams for the new technology era.
It will be a valuable reference for graduate students and researchers that employ ion beams and want to engage in quantum technologies. The book will also be of interest to scientists and engineers from industry that want to make use of ion beams in quantum technologies or learn more about the potential use of ion beams in the field.
Key Features:
¿ Provides a comprehensive introduction to this exciting and growing field of research.
¿ Up-to-date with the latest cutting-edge research and practical guidance for researchers and those in industry to apply to their work.
¿ Edited by established authorities, with chapter contributions from subject-area specialists.
Les informations fournies dans la section « Synopsis » peuvent faire référence à une autre édition de ce titre.
David Jamieson is a Professor of Physics at the University of Melbourne. He served as President of the Australian Institute of Physics from 2005 to 2006 and is a Fellow of the AIP and the Institute of Physics UK. From 2008 to 2013, he served as the Head of the School of Physics at the University of Melbourne. His research expertise in the field of ion beam physics was applied to test some of the key functions of a revolutionary quantum computer constructed in silicon at the Australian Research Centre of Excellence for Quantum Computation and Communication Technology where he is a chief investigator and programme manager.
Andrew Anthony Bettiol is an Associate Professor at the National University of Singapore. He is a principal investigator at the Centre for Ion Beam Applications (CIBA), Singapore, a multi-disciplinary research centre aimed at developing new technologies based on fast protons and ions, and simultaneously undertaking research into novel applications where proton or ion-based technologies provide a unique cutting edge. His current research explores nuclear microscopy in addition to the ion beam modification of materials – modifying optical, electrical, and magnetic properties of materials including bulk materials, semiconductors, non-linear optical materials and 2D materials.
André Schleife is an Associate Professor at the University of Illinois Urbana-Champaign, United States. His research focus on computational material science and electronic and accelerated materials. He received the 2023 Dean’s Award for Excellence in Research. His group uses advanced computation to understand and predict this intricate interplay for materials in electronic and energy applications and under extreme conditions. They study electronic excitations, triggered by interaction with electromagnetic and particle radiation, and subsequent femto-second relaxation processes.
Les informations fournies dans la section « A propos du livre » peuvent faire référence à une autre édition de ce titre.
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Paperback. Etat : new. Paperback. This book explores new experimental techniques and theoretical models to deepen an understanding of radiation effects and ion interaction processes in order to design materials for devices for the emerging quantum technology era.Applications include tailored sensors that respond to ionizing radiation and other electromagnetic phenomena; sensors with high radiation hardness; and materials that contain specific engineered defects with desirable optical, magnetic, or electrical properties.The chapters detail direct experimental investigations into the dynamics of radiation-induced defects, including their generation, annihilation, and transformation, on a time scale ranging from femto-seconds to seconds which requires a more detailed understanding to develop the potential of ion beams for the new technology era.It will be a valuable reference for graduate students and researchers that employ ion beams and want to engage in quantum technologies. The book will also be of interest to scientists and engineers from industry that want to make use of ion beams in quantum technologies or learn more about the potential use of ion beams in the field.Key Features: Provides a comprehensive introduction to this exciting and growing field of research. Up-to-date with the latest cutting-edge research and practical guidance for researchers and those in industry to apply to their work. Edited by established authorities, with chapter contributions from subject-area specialists. This book explores new experimental techniques and theoretical models to deepen an understanding of radiation effects and ion interaction processes in order to design materials for devices for the emerging quantum technology era. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. N° de réf. du vendeur 9781032310688
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Paperback. Etat : new. Paperback. This book explores new experimental techniques and theoretical models to deepen an understanding of radiation effects and ion interaction processes in order to design materials for devices for the emerging quantum technology era.Applications include tailored sensors that respond to ionizing radiation and other electromagnetic phenomena; sensors with high radiation hardness; and materials that contain specific engineered defects with desirable optical, magnetic, or electrical properties.The chapters detail direct experimental investigations into the dynamics of radiation-induced defects, including their generation, annihilation, and transformation, on a time scale ranging from femto-seconds to seconds which requires a more detailed understanding to develop the potential of ion beams for the new technology era.It will be a valuable reference for graduate students and researchers that employ ion beams and want to engage in quantum technologies. The book will also be of interest to scientists and engineers from industry that want to make use of ion beams in quantum technologies or learn more about the potential use of ion beams in the field.Key Features: Provides a comprehensive introduction to this exciting and growing field of research. Up-to-date with the latest cutting-edge research and practical guidance for researchers and those in industry to apply to their work. Edited by established authorities, with chapter contributions from subject-area specialists. This book explores new experimental techniques and theoretical models to deepen an understanding of radiation effects and ion interaction processes in order to design materials for devices for the emerging quantum technology era. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability. N° de réf. du vendeur 9781032310688
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