📌It's almost time for the defence of this year's first doctoral thesis! 👩🔬On 15 January at 15.15, Ye Wang will defend her PhD thesis "Investigating the properties of metal surfaces under high electric fields based on ab initio calculations" in Physics. 📖The thesis supervisors are Professor Veronika Zadin, Professor Alvo Aabloo, Associate Professor Sergei Vlassov and Associate Professor Andreas Kyritsakis from the University of Tartu. The supervisor is Associate Professor Roberto Luis Iglesias Pastrana from the University of Oviedo Department of Physics. Read more about the PhD thesis!👇 https://lnkd.in/dtmE2MAS
Institute of Technology @ University of Tartu’s Post
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I am thrilled to share that my research "Short-Term Load Prediction for Building Energy Management at the University of Ottawa" has been published in the book Multiphysics and Multiscale Building Physics. Special thanks to my co-author Professor Miroslava Kavgic and Luc Bégnoche. Link to get the book : https://lnkd.in/eJd_BCne
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Cal Poly physics professor Thomas Gutierrez and his students are researching mysteries of the universe through a particle physics study collaboration with an international team of scientists. A National Science Foundation grant is helping to fund the work. Story here: https://lnkd.in/gE_e_xfn California Polytechnic State University (Cal Poly) National Science Foundation (NSF)
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Excited about our new work, now out in Physical Review Letters. Spin dynamics simulations are fundamental tools for understanding and advancing spintronics—a new branch of electronics that makes use of the electron spin, rather than its charge, to enable innovative technologies and applications. Often these simulations are based on a phenomenological classical equation, initially proposed by Landau and Lifshitz, and later modified by Gilbert to include a damping term. This is a great model to simulate mesoscale (few nanometers) to macroscale (few micrometers and larger) systems. However, when the system is too small (composed by just a few atoms), quantum effects become sizable. In our work, we propose an analog of the Landau-Lifshitz-Gilbert equation that can capture those quantum effects, based on a density matrix formalism. We then analyze some properties and consequences. Check it out: https://lnkd.in/dTh5N7J9
Excited to share that our latest work has been published online on December 30, 2024! Check it out in today's issue of Physics Review Letters. A quantum analog of Landau-Lifshitz-Gilbert equation. DOI: 10.1103/PhysRevLett.133.266704 https://lnkd.in/d3uFcEr7 A fantastic way to wrap up the year—one that marked the completion of my PhD and the start of a new chapter in my career. This paper represents the final piece included in my PhD thesis (Kappa), and I truly enjoyed every step of this journey with my amazing colleagues. Ivan Miranda, PhD 🌟, Vahid Azimi mousolou, Erik Sjöqvist, Anna Delin, Olle Eriksson, Danny Thonig, Anders Bergman, Manuel Pereiro, and many many wonderful colleagues! Grateful for all the support along the way!
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Professor of Inha University in Tashkent Recognized as One of the World's Leading Scientists Farruh Atamurotov, a Professor of Physics at Inha University in Tashkent, has been recognized as one of the world's top 2% of scientists (among all fields) for the single year 2024.🤩 This acknowledgment is based on the "Updated Science-Wide Author Databases of Standardized Citation Indicators" by John P. A. Ioannidis, which evaluates scientists globally using a comprehensive set of metrics. It consists of citation counts, h-index, co-authorship adjustment, and composite citation scores. https://lnkd.in/gp2fggdH
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Exciting developments in the field of quantum physics are on the horizon! A recent blog post explores groundbreaking research where scientists have successfully observed 'negative time' in quantum experiments. This fascinating study opens up new avenues for understanding the complexities of time at the quantum level and challenges our conventional perceptions. For those interested in the intersection of science and technology, this research not only advances theoretical knowledge but also has potential implications for future innovations. Read more about these remarkable findings and their significance in the full article here: https://ift.tt/fmaB7MK.
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📚 Explore the fascinating field of complex systems with the Master's in #Physics of #ComplexSystems, offered by IFISC and Universitat de les Illes (UIB). This program combines interdisciplinary research with a solid foundation in physics. Learn more and apply 👇🏻 https://lnkd.in/dJcsQ6Zj
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A modern take on Thomas Edison's response to why it took so long to invent the light bulb--that he had discovered all the ways how NOT to invent one. All the missteps are needed to get to that 1 successful product. Perhaps the better way is to accelerate and shorten the "learning" phase, so one can arrive at that "Eureka" stage faster. Thanks to our better computational capabilities, we can, in some cases, potentially "mock up" and accelerate the attempts in the "learning" phase, e.g. AI application to small molecule design.
“Research consists to a large extent of failures; probably more failures than successful steps forward. Of course, in the first moment a failure never feels nice, but in the second moment, we do realise that there's a lot to learn from those failures. In quite a few cases, we can learn more from failures than successful steps forward. So, I think we always have to see how we can extract the maximum amount of new information we can get from the failure, and equipped with that new information, think what is the right step to be taken next.” - physics laureate Ferenc Krausz He shared the 2023 Nobel Prize in Physics with Pierre Agostini and Anne L’Huillier “for experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.” Learn more about his work: https://lnkd.in/g7cb3Ypi -
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Master Of Science with a major in Mathematics. Member in The Swedish Association Of Scientists. Mathematics Teacher.
Relativistic Quantum Mechanics written by Paul Strange is a great book I used beside my course book "Relativistic Quantum Mechanics and Field Theory" written by Gross, when I studied Relativistic Quantum Mechanics at Department of Physics, Stockholm University in 2007, I found it very useful in studying that course. I recommand this book to students in this branch of Physics. This book is from Cambridge.
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learn from failure
“Research consists to a large extent of failures; probably more failures than successful steps forward. Of course, in the first moment a failure never feels nice, but in the second moment, we do realise that there's a lot to learn from those failures. In quite a few cases, we can learn more from failures than successful steps forward. So, I think we always have to see how we can extract the maximum amount of new information we can get from the failure, and equipped with that new information, think what is the right step to be taken next.” - physics laureate Ferenc Krausz He shared the 2023 Nobel Prize in Physics with Pierre Agostini and Anne L’Huillier “for experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.” Learn more about his work: https://lnkd.in/g7cb3Ypi -
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