Accelerators
Accelerators research are devices that propel charged particles to high speeds using electromagnetic fields, playing a crucial role in physics research and applications ranging from fundamental particle studies to materials testing. This category covers a broad scope including the design, development, and usage of accelerators within physical sciences, bridging closely with synchrotron technologies. JoVE Visualize enhances understanding by pairing PubMed research articles with JoVE’s experiment videos, helping researchers and students grasp complex methodologies and experimental findings in accelerator science.
Traditional accelerator research relies on well-established techniques such as beam dynamics analysis, radiofrequency cavity design, and particle detection to optimize accelerator performance. Researchers employ simulation tools and advanced diagnostics to characterize beam quality and stability. These core methods support a range of experiments across high-energy physics, synchrotron radiation generation, and radiation therapy, ensuring precise control over particle acceleration and targeting.
Emerging trends focus on compact accelerator designs and novel acceleration mechanisms like plasma wakefield acceleration and laser-driven accelerators, promising more accessible and cost-effective solutions. Innovations also include integrating advanced materials and machine learning to improve tuning and fault detection. Such methods expand the potential applications of accelerators across multidisciplinary fields including medical technologies and materials science, enriching the frontier of accelerator research.
Rijin N T, Dinesh Kumar, M M Musthafa, Midhun C V, Vafiya T, Swapna Balakrishnan, S Ghugre, S Dasgupta, J Datta
Okky Agassy Firmansyah, Budhy Kurniawan, Marta Walo, Urszula Gryczka, Bimo Saputro, Heru Prasetio, Ari Satmoko, Nunung Nuraeni
Annika Lenz, Mary Jo Pugh, Alicia A Swan, Alan Johnson, Eric Strom, Jacob Schmidt, Krista Johnson, Robert Jones, Shana Godfred-Cato
Chen Li, Ya-Ling Zhang, Zheng Wei, Yong Sun, Lei Yang, Yu-Cui Gao, Wei Wang, Yan-Shi Zhang
Yuuki Wada, Takeshi Morimoto, Ting Wu, Daohong Wang, Hiroshi Kikuchi, Yoshitaka Nakamura, Eiichi Yoshikawa, Tomoo Ushio, Harufumi Tsuchiya
Thomas Failing, Rolf Behrens, Frank W Hensley, Boris Keil, Thorsten Schneider, Klemens Zink
Lucas Sommer, Tobias Chemnitz, Andrea Alberdi Hidalgo, Jan J Wilkens
M Agostini, A Alexander, G Araujo, A M Bakalyarov, M Balata, I Barabanov, L Baudis, C Bauer, S Belogurov, A Bettini, L Bezrukov, V Biancacci, E Bossio, V Bothe, R Brugnera, A Caldwell, S Calgaro, C Cattadori, A Chernogorov, P-J Chiu, T Comellato, V D'Andrea, E V Demidova, N Di Marco, E Doroshkevich, M Fomina, A Gangapshev, A Garfagnini, C Gooch, P Grabmayr, V Gurentsov, K Gusev, J Hakenmüller, S Hemmer, W Hofmann, J Huang, M Hult, L V Inzhechik, J Janicskó Csáthy, J Jochum, M Junker, V Kazalov, Y Kermaïdic, H Khushbakht, T Kihm, K Kilgus, I V Kirpichnikov, A Klimenko, K T Knöpfle, O Kochetov, V N Kornoukhov, P Krause, V V Kuzminov, M Laubenstein, M Lindner, I Lippi, A Lubashevskiy, B Lubsandorzhiev, G Lutter, C Macolino, B Majorovits, W Maneschg, G Marshall, M Misiaszek, M Morella, Y Müller, I Nemchenok, M Neuberger, L Pandola, K Pelczar, L Pertoldi, P Piseri, A Pullia, C Ransom, L Rauscher, M Redchuk, S Riboldi, N Rumyantseva, C Sada, S Sailer, F Salamida, S Schönert, J Schreiner, A-K Schütz, O Schulz, M Schwarz, B Schwingenheuer, O Selivanenko, E Shevchik, M Shirchenko, L Shtembari, H Simgen, A Smolnikov, D Stukov, S Sullivan, A A Vasenko, A Veresnikova, C Vignoli, K von Sturm, T Wester, C Wiesinger, M Wojcik, E Yanovich, B Zatschler, I Zhitnikov, S V Zhukov, D Zinatulina, A Zschocke, K Zuber, G Zuze