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1. Snowmass White Paper: Belle II physics reach and plans for the next decade and beyond

Author

Aggarwal, Latika, Banerjee, Swagato, Bansal, Sunil, Bernlochner, Florian, Bertemes, Michel, Bhardwaj, Vishal, Bondar, Alexander, Browder, Thomas E., Cao, Lu, Campajola, Marcello, Casarosa, Giulia, Cecchi, Claudia, Cheaib, Racha, De Pietro, Giacomo, Di Canto, Angelo, Dorigo, Mirco, Feichtinger, Paul, Ferber, Torben, Fulsom, Bryan, García, Marcela, Gaudino, Giovanni, Gaz, Alessandro, Glazov, Alexander, Granderath, Svenja, Graziani, Enrico, Greenwald, Daniel, Goldenzweig, Pablo, Heredia, Ivan, Villanueva, Michel Hernández, Higuchi, Takeo, Humair, Thibaud, Iijima, Toru, Inguglia, Gianluca, Ishikawa, Akimasa, Jacobi, Daniel, Junkerkalefeld, Henrik A., Karl, Robert, Lautenbach, Klemens, Lewis, Peter M., Li, Long-Ke, Lacaprara, Stefano, Libby, James, Manoni, Elisa, Martini, Alberto, Merola, Mario, Milesi, Marco, Moneta, Stefano, Nayak, Minakshi, Nishida, Shohei, Palaia, Maria Antonietta, Pham, Francis, Polat, Léonard, Prell, Soeren A., Prencipe, Elisabetta, Räuber, Géraldine, Ripp-Baudot, Isabelle, Rhorken, Markus, Roney, Michael, Rostomyan, Armine, Sakai, Yoshihide, Sato, Yo, Schwanda, Christoph, Schwartz, Alan J., Serrano, Justine, Sutcliffe, William, Svidras, Henrikas, Tackmann, Kerstin, Tamponi, Umberto, Tenchini, Francesco, Trabelsi, Karim, Tiwary, Rahul, Tonelli, Diego, Uno, Kenta, Vossen, Anselm, Yabsley, Bruce, Yin, Jun-Hao, and Zani, Laura

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

Belle II is an experiment operating at the intensity frontier. Over the next decades, it will record the decay of billions of bottom mesons, charm hadrons, and tau leptons produced in 10 GeV electron-positron collisions at the SuperKEKB high-luminosity collider at KEK. These data, collected in low-background and kinematically known conditions, will allow us to measure hundreds of parameters that test the standard model (SM) and probe for the existence of new particles, at mass scales orders of magnitudes higher than those studied at the energy frontier. We project our sensitivities for measurements that are of primary relevance and where Belle II will be unique or world leading for data corresponding to 1 to 50 ab$^{-1}$. Belle II will uniquely probe non-SM contributions in sensitive $b \to q\bar q s$ decays and charmless $b \to q\bar q d(u)$ decays, semileptonic $b \to s \nu \bar\nu$ and $s \tau^+ \tau^-$ decays, fully leptonic $b \to \ell \nu$ decays, and select $c \to u$ processes. Belle II will lead exploration of non-SM physics in $b \to c \tau \nu$ and $b \to s \gamma$ decays and will most precisely determine the quark-mixing parameters $|V_{ub}|$ and $|V_{cb}|$. Belle II will measure many parameters in $\tau$ physics to precisions that will be world leading for the foreseeable future, including the electric and magnetic dipole moments, branching fractions for charged-lepton-flavor-violating decays, and quantities that test lepton-flavor universality. Belle II will perform unique searches for dark-sector particles with masses in the MeV-GeV range. We will also pursue a broad spectroscopy program for conventional and multiquark $c \bar c$ and $b \bar b$ states and provide essential inputs to sharpen the interpretation of muon magnetic-anomaly results. Our exploration of uncharted regions of non-SM parameter space with high precision will reveal non-SM particles or set stringent constraints on their existence, guiding future endeavors., Comment: 49 pages, 15 figures. Submitted to the Proceedings of the US Community Study on the Future of Particle Physics (Snowmass 2021)

Published
2022

2. Standard model anomalies: Lepton flavour non-universality, g-2 and W-mass

Author

D'Alise, Alessandra, De Nardo, Guglielmo, Di Luca, Maria Grazia, Fabiano, Giuseppe, Frattulillo, Domenico, Gaudino, Giovanni, Iacobacci, Davide, Merola, Mario, Sannino, Francesco, Santorelli, Pietro, and Vignaroli, Natascia

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory
Abstract

We critically analyze the body of results that hints to the existence of New Physics from possible violations of lepton universality observed by the LHCb experiment in the $\mu/e$ ratios $R_{K}$ and $R_{K^*}$ to the $g-2$ lepton anomalies. The analysis begins with a theoretical, in depth, study of the $\mu/e$ ratios $R_{K}$ and $R_{K^*}$ as well as the process $B_s \rightarrow \mu^+ \mu^-$. Here we consider the impact of complex Wilson coefficients and derive constraints on their imaginary and real parts. We then move to a comprehensive comparison with experimental results. We show that, by fitting a single Wilson coefficient, the deviations from the Standard Model are at the $4.7\sigma$ level when including only the hadronic insensitive observables while it increases to $6.1\sigma$ when including also the hadronic sensitive ones. When switching on all relevant Wilson coefficients and combining both hadronic sensitive and insensitive data into the fit, the deviation from the Standard Model peaks at $7.2\sigma$ and decreases at the $4.9\sigma$ level if we assume that the central values of $R_K$ and $R_{K^{\ast}}$ are taken to be unity. We further estimate other unaccounted for SM contributions and show that their inclusion still requires New Physics to fit the data. We then introduce the $g-2$ lepton anomalies as well as the most recent $W$-mass results. Different theoretical models are considered that can explain the discrepancies from the Standard Model. In the final part of our work we estimate the impact of the forthcoming data from LHCb (coming from LHC Run3) and Belle II, when it will have accumulated about $5~ab^{-1}$., Comment: Final version to match the published one. References added, improved world average of the W-mass, long distance effects discussion improved for the hadronic sensitive observables

Published
2022
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5. Overview of recent ITER TBM Program activities

Author

Giancarli, Luciano M., Bravo, Xavier, Cho, Seungyon, Ferrari, Marco, Hayashi, Takumi, Kim, Byoung-Yoon, Leal-Pereira, Artur, Martins, Jean-Pierre, Merola, Mario, Pascal, Romain, Schneiderova, Iva, Sheng, Qian, Sircar, Amit, Strebkov, Yuri, van der Laan, Jaap, and Ying, Alice

Published
2020
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7. Innovations in Technology and Science R&D for ITER

Author

Campbell, David J., Akiyama, Tsuyoshi, Barnsley, Robin, Bassan, Michele, Baylor, Larry R., Bertalot, Luciano, Escourbiac, Frédéric, Giancarli, Luciano M., Gitton, Philippe, Guirao, Julio, Kocan, Martin, Krasilnikov, Vitaly, Kruezi, Uron, Lehnen, Michael, Maruyama, So, Ma, Yunxing, Merola, Mario, Mitchell, Neil, Pitcher, C. Spencer, Raffray, A. René, Reichle, Roger, Shigin, Pavel, Sirinelli, Antoine, Udintsev, Victor, van der Laan, Jaap G., Vayakis, George, Wallander, Anders, Walsh, Michael, Watts, Christopher, and the ITER Organization, Domestic Agencies and ITER Collaborators

Published
2019
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10. Measurement of the $\Omega_c^0$ lifetime at Belle II

Author

Abudinen, Fernando Jesus, Adachi, Ichiro, Aggarwal, Latika, Ahmed, Hossain, Aihara, Hiroaki, Akopov, Norayr, Aloisio, Alberto, Nguyen, Anh-Ky, Asner, David Mark, Aushev, Tagir, Aushev, Volodymyr Ye, Bae, Hanwook, Bambade, Philip, Banerjee, Sw., Banerjee, Swagato, Baudot, Jerome, Bauer, Moritz, Beaubien, Alexandre, Becker, Juergen, Behera, Prafulla Kumar, Bennett, Jake, Bernieri, Enrico, Bernlochner, Florian, Bertacchi, Valerio, Bertemes, Michel, Bertholet, Emilie, Bessner, Martin, Bettarini, Stefano, Bhuyan, Bipul, Bianchi, Fabrizio, Bilka, Tadeas, Biswas, Diptaparna, Bodrov, Denis, Bolz, Arthur, Borah, Jyotirmoi, Bozek, Andrzej, Bracko, Marko, Branchini, Paolo, Briere, R. A., Browder, Thomas Earl, Budano, Antonio, Bussino, Severino, Campajola, Marcello, Cao, Lu, Casarosa, Giulia, Cecchi, Claudia, Chang, Ming-Chuan, Cheema, Priyanka, Chekelian, Vladimir, Chen, Yongqing, Chilikin, Kirill, Chirapatpimol, Khem, Cho, HanEol, Cho, Kihyeon, Cho, Sungjin, Choi, Sookyung, Choudhury, Seema, Cinabro, David, Corona, Luigi, Cunliffe, Samuel Thomas, Das, Sanjeeda Bharati, Dattola, Filippo, De La Cruz Burelo, Eduard, De La Motte, Shanette Anne, de Marino, Gaetano, De Nardo, Guglielmo, De Nuccio, Michael, De Pietro, Giacomo, de Sangro, Riccardo, Destefanis, Marco, Dey, Sourav, De Yta Hernandez, Alejandro, Dhamija, Rashmi, Di Canto, Angelo, Di Capua, Francesco, Dingfelder, Jochen, Dolezal, Zdenek, Dominguez Jimenez, Isabel, Dong, Thanh Van, Dorigo, Mirco, Dort, Katharina, Dreyer, Sascha, Dubey, Shawn, Dujany, Giulio, Ecker, Patrick, Eliachevitch, Michael, Epifanov, Denis Alexandrovich, Feichtinger, Paul, Ferber, Torben, Ferlewicz, Daniel, Fillinger, Tristan, Finocchiaro, Giuseppe, Fodor, Andrea, Forti, Francesco, Fulsom, Bryan Gregory, Ganiev, Eldar, Gaur, Vipin, Gaz, Alessandro, Gellrich, Andreas, Ghevondyan, Gayane, Giordano, Raffaele, Giri, Anjan, Glazov, Alexander, Gobbo, Benigno, Godang, Romulus, Goldenzweig, Pablo, Gradl, Wolfgang, Granderath, Svenja Katharina, Graziani, Enrico, Greenwald, Daniel, Gu, Tianping, Guan, Yinghui, Gudkova, Kristina, Guilliams, Justin, Hayasaka, Kiyoshi, Hayashii, Hisaki, Hazra, Sagar, Hearty, Christopher, Heredia de la Cruz, Ivan, Hernandez Villanueva, Michel, Hershenhorn, Alon David, Higuchi, Takeo, Hill, Ewan Chin, Hirata, Hikari, Hohmann, Marcel, Hsu, Chia-Ling, Iijima, Toru, Inami, Kenji, Inguglia, Gianluca, Ipsita, N. Sushree, Ishikawa, Akimasa, Ito, Shintaro, Itoh, Ryosuke, Iwasaki, Masako, Jackson, Paul Douglas, Jacobs, William Wescott, Jaffe, David, Jang, Eunji, Jia, Sen, Jin, Yifan, Joo, Kyung Kwang, Junkerkalefeld, Henrik, Kaliyar, Abdul Basith, Kang, Kookhyun, Karl, Robert, Karyan, Gevorg, Kiesling, Christian, Kim, Cheolhun, Kim, Doris Yangsoo, Kim, Kyungho, Kim, Yongkyu, Kindo, Haruki, Kinoshita, Kay, Kodys, Peter, Koga, Taichiro, Kohani, Shahab, Kojima, Kazuki, Konno, Tomoyuki, Korobov, Alexandr, Korpar, Samo, Kovalenko, Evgeniy, Kowalewski, Robert, Kraetzschmar, Thomas Michael Gerd, Krizan, Peter, Krokovny, Pavel, Kumar, Jitendra, Kumara, Kospalage Janaka, Kunigo, Takuto, Kuzmin, Alexander, Kwon, Youngjoon, Lacaprara, Stefano, Lam, Tommy, Lanceri, Livio, Lange, Jens Soeren, Laurenza, Martina, Lautenbach, Klemens, Leboucher, Robin, Li, Chunhua, Li, Longke, Libby, James Frederick, Lieret, Kilian Adriano, Liptak, Zachary John, Liu, Qingyuan, Liventsev, Dmitri, Longo, Savino, Lozar, Andrej, Lueck, Thomas, Lyu, Chaoyi, Maggiora, Marco, Maiti, Rajesh Kumar, Manfredi, Riccardo, Manoni, Elisa, Marcello, Simonetta, Marinas, Carlos, Martini, Alberto, Martinov, Tommy, Massaccesi, Ludovico, Masuda, Masataka, Maurya, Shubhangi Krishan, McKenna, Janis Anne, Meier, Frank, Merola, Mario, Metzner, Felix, Milesi, Marco, Miller, Caleb, Miyabayashi, Kenkichi, Mizuk, Roman, Mohanty, G. B., Molina-Gonzalez, N., Molina, Norman Wilfrido, Moneta, Stefano, Moser, Hans-Guenther, Mrvar, Manca, Mussa, Roberto, Nakamura, Isamu, Nakao, Mikihiko, Nakayama, Hiroyuki, Nakazawa, Yu, Narimani Charan, Abtin, Naruki, Megumi, Natkaniec, Zbigniew Marian, Natochii, Andrii, Nayak, Lopamudra, Nayak, Minakshi, Nazaryan, Gevorg, Nellikunnummel, Nisar, Ogawa, Satoru, Ono, Hiroaki, Onuki, Yoshiyuki, Oxford, Emma Rollinson, Paladino, Antonio, Panta, Anil, Paoloni, Eugenio, Pardi, Silvio, Park, Hwanbae, Park, Seokhee, Passeri, Antonio, Paul, Stephan Martin, Pedlar, Todd Kristofer, Peruzzi, Ida Marena, Peschke, Richard, Pestotnik, Rok, Piccolo, Marcello, Piilonen, L. E., Podesta lerma, Pedro Luis Manuel, Podobnik, Tomaz, Pokharel, Saroj, Polat, Leonard, Praz, Cyrille, Prell, Soeren, Prencipe, Elisabetta, Prim, Markus Tobias, Purwar, Harsh, Rad, Navid Khandan, Rados, Petar, Raiz, Sebastiano, Ramirez Morales, Andres, Reif, Markus, Reiter, Simon, Remnev, Mikhail, Ripp-Baudot, Isabelle, Rizzo, Giuliana, Robertson, Steven H., Roney, John Michael, Rostomyan, Armine, Rout, Niharika, Russo, Guido, Sanders, David Alan, Sandilya, Saurabh, Sangal, Aman, Sato, Yo, Savinov, Vladimir, Scavino, Bianca, Schueler, Jeff, Schwanda, Christoph, Schwartz, Alan Jay, Schwenker, Benjamin, Seino, Yoshiaki, Selce, Andrea, Senyo, Katsumi, Serrano, Justine, Sevior, Martin Edmund, Sfienti, Concettina, Shen, Chengping, Shi, Xiaodong, Shillington, Trevor, Sibidanov, Alexei, Singh, Jasbir, Skorupa, Justin, Sobie, Randall, Soffer, Abner, Solovieva, Elena, Spataro, Stefano, Spruck, Bjoern, Staric, Marko, Stefkova, Slavomira, Stottler, Zachary Shaun, Stroili, Roberto, Strube, Jan Fridolf, Sumihama, Mizuki, Sumisawa, Kazutaka, Sutcliffe, William, Suzuki, Soh Yamagata, Svidras, Henrikas, Takizawa, Makoto, Tamponi, Umberto, Tanida, Kiyoshi, Tanigawa, Hikaru, Tenchini, Francesco, Thaller, Arthur, Tiwary, Rahul, Tonelli, Diego, Torassa, Ezio, Toutounji, Nadia Ejlal, Trabelsi, Karim, Uchida, Makoto, Ueda, Ikuo, Uematsu, Yuma, Uglov, Timofey, Unger, Kai Lukas, Unno, Yuji, Uno, Kenta, Uno, Shoji, Ushiroda, Yutaka, Vahsen, Sven Einar, van Tonder, Raynette, Varner, Gary, Varvell, Kevin Ernest, Vinokurova, Anna, Vitale, Lorenzo, Vobbilisetti, Vidya Sagar, Wakeling, Hannah Marie, Wang, Erfei, Wang, Min-Zu, Wang, Xiaolong, Warburton, Andreas, Watanabe, Minori, Watanuki, Shun, Welsch, Maximilian, Wessel, Christian, Won, Eunil, Yabsley, Bruce Donald, Yamada, Satoru, Yan, Wenbiao, Yang, Seongbae, Ye, Hua, Yelton, John, Yin, Junhao, Yook, Youngmin, Yoshihara, Keisuke, Yuan, Changzheng, Zani, Laura, Zhang, Yi, Zhilich, Victor, Zhou, Qi-Dong, Zhou, Xing-Yu, Zhukova, Valentina, Zlebcik, Radek, Belle-II Collaboration, Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Belle-II, and HEP, INSPIRE

Subjects
lifetime, Omega, [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex], hadronic decay [Omega/c0], BELLE, annihilation [electron positron], electron positron: colliding beams, Omega/c0: hadronic decay, electron positron: annihilation, pi+, High Energy Physics - Experiment, KEK-B, Omega/c0: lifetime, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], colliding beams [electron positron], ddc:530, charmed baryon, +Omega-+pi%2B%22">Omega/c0 --> Omega- pi+, lifetime [Omega/c0], experimental results
Abstract

Physical review / D 107, L031103 (2023). doi:10.1103/PhysRevD.107.L031103, We report on a measurement of the $\Omega_c^0$ lifetime using $\Omega_c^0 \to \Omega^-\pi^+$ decays reconstructed in $e^+e^-\to c\bar{c}$ data collected by the Belle II experiment and corresponding to $207~{\rm fb^{-1}}$ of integrated luminosity. The result, $\rm\tau(\Omega_c^0)=243\pm48( stat)\pm11(syst)~fs$, agrees with recent measurements indicating that the $\Omega_c^0$ is not the shortest-lived weakly decaying charmed baryon., Published by Inst., Woodbury, NY

Published
2023
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13. Standard model anomalies: Lepton flavour non-universality and lepton $g-2$

Author

D'Alise, Alessandra, De Nardo, Guglielmo, Di Luca, Maria Grazia, Fabiano, Giuseppe, Frattulillo, Domenico, Gaudino, Giovanni, Iacobacci, Davide, Merola, Mario, Sannino, Francesco, Santorelli, Pietro, and Vignaroli, Natascia

Subjects
High Energy Physics::Experiment, Particle Physics - Lattice, Particle Physics - Theory, Particle Physics - Phenomenology
Abstract

We critically analyze the body of results that hints to the existence of New Physics from possible violations of lepton universality observed by the LHCb experiment in the μ/e ratios R$_{K}$ and $ {R}_{K^{\ast }} $ to the g − 2 lepton anomalies. The analysis begins with a theoretical, in depth, study of the μ/e ratios R$_{K}$ and $ {R}_{K^{\ast }} $ as well as the process B$_{s}$→ μ$^{+}$μ$^{−}$. Here we consider the impact of complex Wilson coefficients and derive constraints on their imaginary and real parts. We then move to a comprehensive comparison with experimental results. We show that, by fitting a single Wilson coefficient, the deviations from the Standard Model are at the 4.7σ level when including only the hadronic insensitive observables while it increases to 6.1σ when including also the hadronic sensitive ones. When switching on all relevant Wilson coefficients and combining both hadronic sensitive and insensitive data into the fit, the deviation from the Standard Model peaks at 7.2σ and decreases at the 4.9σ level if we assume that the central values of R$_{K}$ and $ {R}_K^{\ast } $ are taken to be unity. We further estimate other unaccounted for SM contributions and show that their inclusion still requires New Physics to fit the data. We then introduce the g − 2 lepton anomalies as well as the most recent W-mass results. Different theoretical models are considered that can explain the discrepancies from the Standard Model. In the final part of our work we estimate the impact of the forthcoming data from LHCb (coming from LHC Run3) and Belle II, when it will have accumulated about 5 ab$^{−1}$. We critically analyze the body of results that hints to the existence of New Physics from possible violations of lepton universality observed by the LHCb experiment in the $\mu/e$ ratios $R_{K}$ and $R_{K^*}$ to the $g-2$ lepton anomalies. The analysis begins with a theoretical, in depth, study of the $\mu/e$ ratios $R_{K}$ and $R_{K^*}$ as well as the process $B_s \rightarrow \mu^+ \mu^-$. Here we consider the impact of complex Wilson coefficients and derive constraints on their imaginary and real parts. We then move to a comprehensive comparison with experimental results. We show that, by fitting a single Wilson coefficient, the deviations from the Standard Model are at the $4.7\sigma$ level when including only the hadronic insensitive observables while it increases to $6.1\sigma$ when including also the hadronic sensitive ones. When switching on all relevant Wilson coefficients and combining both hadronic sensitive and insensitive data into the fit, the deviation from the Standard Model peaks at $7.2\sigma$ and decreases at the $4.9\sigma$ level if we assume that the central values of $R_K$ and $R_{K^{\ast}}$ are taken to be unity. We further estimate other unaccounted for SM contributions and show that their inclusion still requires New Physics to fit the data. We then introduce the $g-2$ lepton anomalies as well as the most recent $W$-mass results. Different theoretical models are considered that can explain the discrepancies from the Standard Model. In the final part of our work we estimate the impact of the forthcoming data from LHCb (coming from LHC Run3) and Belle II, when it will have accumulated about $5~ab^{-1}$.

Published
2022

16. Measurement of the $B^+/B^0$ production ratio in $e^+e^-$ collisions at the $\Upsilon(4S)$ resonance using $B \rightarrow J/\psi(\ell\ell) K$ decays at Belle

Author

Adachi, Ichirou, Aihara, Hiroaki, Asner, David, Atmacan, Hulya, Aushev, Tagir, Ayad, Rachid, Babu, Varghese, Bahinipati, Seema, Behera, Prafulla Kumar, Belous, Konstantin, Bennett, Jake, Bessner, Martin, Bhardwaj, Vishal, Bhuyan, Bipul, Bilka, Tadeas, Bodrov, Denis, Bonvicini, Giovanni, Borah, Jyotirmoi, Bozek, Andrzej, Bracko, Marko, Branchini, Paolo, Browder, Thomas, Budano, Antonio, Campajola, Marcello, Cervenkov, Daniel, Chang, Ming-Chuan, Chen, Chunhui, Cheon, Byunggu, Chilikin, Kirill, Cho, Haneol, Cho, Kihyeon, Cho, Sungjin, Choi, Sookyung, Choi, Youngil, Choudhury, Seema, Cinabro, David, Das, Sanjeeda Bharati, de Pietro, Giacomo, Di Capua, Francesco, Dingfelder, Jochen, Dolezal, Zdenek, Dong, Thanh Van, Epifanov, Denis Alexandrovich, Ferlewicz, Daniel, Fulsom, Bryan Gregory, Garg, Renu, Gaur, Vipin, Gabyshev, Nikolay, Giri, Anjan, Goldenzweig, Pablo, Graziani, Enrico, Gu, Tianping, Gudkova, Kristina, Hadjivasiliou, Christos, Hara, Takanori, Hayasaka, Kiyoshi, Hayashii, Hisaki, Hedges, Michael Thomas, Herrmann, Daniel Ricalde, Hou, George Wei-Shu, Hsu, Chia-Ling, Inami, Kenji, Ipsita, N. Sushree, Ishikawa, Akimasa, Itoh, Ryosuke, Iwasaki, Masako, Jacobs, William, Jang, Eunji, Ji, Qingping, Jia, Sen, Jin, Yifan, Joo, Kyung Kwang, Kang, Kook Hyun, Kawasaki, Takeo, Kiesling, Christian, Kim, Cheolhun, Kim, Doris Yangsoo, Kim, Kyungho, Kim, Yongkyu, Kindo, Haruki, Kinoshita, Kay, Kodys, Peter, Konno, Tomoyuki, Korobov, Alexander, Korpar, Samo, Kovalenko, Evgeniy, Krizan, Peter, Krokovny, Pavel, Kumar, Manish, Kumar, Rajeev, Kumara, Kospalage Janaka, Kwon, Young-Joon, Lam, Tommy, Lange, Jens Soeren, Laurenza, Martina, Lee, Seungcheol, Lewis, Peter, Li, Jin, Li, Longke, Li, Yubo, Li Gioi, Luigi, Libby, James Frederick, Lieret, Kilian Adriano, Liventsev, Dmitri, Luo, Tao, Masuda, Masataka, Matsuda, Tatsuro, Matvienko, Dmitry, Maurya, Shubhangi Krishan, Meier, Frank, Merola, Mario, Metzner, Felix, Miyabayashi, Kenkichi, Mizuk, Roman, Mohanty, Gagan Bihari, Nakamura, Isamu, Nakao, Mikihiko, Natkaniec, Zbigniew, Natochii, Andrii, Nayak, Lopamudra, Nayak, Minakshi, Nellikunnummel, Nisar, Nishida, Shohei, Ogawa, Satoru, Ono, Hiroaki, Oskin, Pavel, Pakhlov, Pavel, Pakhlova, Galina, Pardi, Silvio, Park, Seokhee, Passeri, Antonio, Patra, Sourav, Paul, Stephan Martin, Pedlar, Todd Kristofer, Pestotnik, Rok, Piilonen, Leo, Podobnik, Tomaz, Prell, Soeren, Prencipe, Elisabetta, Prim, Markus, Rout, Niharika, Russo, Guido, Sakai, Yoshihide, Sandilya, Saurabh, Sangal, Aman, Santelj, Luka, Savinov, Vladimir, Schueler, Jeff, Schwanda, Christoph, Schwartz, Alan Jay, Seino, Yoshiaki, Senyo, Katsumi, Sevior, Martin Edmund, Shapkin, Mikhail, Sharma, Chanchal, Shen, Chengping, Shiu, Jing-Ge, Singh, Jasbir, Sokolov, Anatoly, Solovieva, Elena, Staric, Marko, Stottler, Zachary S., Strube, Jan, Sumihama, Mizuki, Sumiyoshi, Takayuki, Takizawa, Makoto, Tanida, Kiyoshi, Tenchini, Francesco, Trabelsi, Karim, Uchida, Makoto, Uglov, Timofey, Unno, Yuuji, Uno, Shoji, Urquijo, Phillip, Ushiroda, Yutaka, Usov, Yuri, van Tonder, Raynette, Varner, Gary, Varvell, Kevin Ernest, Vinokurova, Anna, Vossen, Anselm Georg, Waheed, Eiasha, Wang, Erfei, Wang, Min-Zu, Wang, Xiaolong, Watanabe, Minori, Watanuki, Shun, Won, Eunil, Xu, Xinping, Yabsley, Bruce, Yang, Seongbae, Yelton, John, Yin, Junhao, Yuan, Changzheng, Yusa, Yosuke, Zhai, Yunxiao, Zhang, Ziping, Zhilich, Victor, Zhukova, Valentina, and HEP, INSPIRE

Subjects
+electron+positron%22">J/psi(3100) --> electron positron, B0: hadronic decay, Upsilon(10570): electroproduction, +J%2Fpsi%283100%29+K%2B%22">B+ --> J/psi(3100) K+, [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex], +B0+anti-B0%22">Upsilon(10570) --> B0 anti-B0, measure: ratio, BELLE, electron positron: colliding beams, branching ratio: ratio, electron positron: annihilation, +B%2B+B%22">Upsilon(10570) --> B+ B, decay rate: ratio, electron: pair production, muon: pair production, J/psi(3100): leptonic decay, Upsilon(10570): branching ratio, error: statistical, KEK-B, +muon%2B+muon%22">J/psi(3100) --> muon+ muon, +J%2Fpsi%283100%29+K0%22">B0 --> J/psi(3100) K0, isospin: symmetry, B+: hadronic decay, experimental results
Abstract

We measure the ratio of branching fractions for the $\Upsilon (4S)$ decays to $B^+B^-$ and $B^0\bar{B}{}^0$ using $B^+ \rightarrow J/\psi(\ell\ell) K^+$ and $B^0 \rightarrow J/\psi(\ell\ell) K^0$ samples, where $J/\psi(\ell\ell)$ stands for $J/\psi \to \ell^+\ell^-$ ($\ell = e$ or $\mu$), with $711$ fb$^{-1}$ of data collected at the $\Upsilon(4S)$ resonance with the Belle detector. We find the decay rate ratio of $\Upsilon(4S) \rightarrow B^+B^-$ over $\Upsilon(4S) \rightarrow B^0\bar{B}{}^0$ to be $1.065\pm0.012\pm 0.019 \pm 0.047$, which is the most precise measurement to date. The first and second uncertainties are statistical and systematic, respectively, and the third uncertainty is systematic due to the assumption of isospin symmetry in $B \to J/\psi(\ell\ell) K$.

Published
2022

18. ITER plasma-facing components

Author

Merola, Mario, Loesser, D., Martin, A., Chappuis, P., Mitteau, R., Komarov, V., Pitts, R.A., Gicquel, S., Barabash, V., Giancarli, L., Palmer, J., Nakahira, M., Loarte, A., Campbell, D., Eaton, R., Kukushkin, A., Sugihara, M., Zhang, F., Kim, C.S., Raffray, R., Ferrand, L., Yao, D., Sadakov, S., Furmanek, A., Rozov, V., Hirai, T., Escourbiac, F., Jokinen, T., Calcagno, B., and Mori, S.

Published
2010
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22. Observation of τ−→π−ντe+e− and search for τ−→π−ντμ+μ−

Author

Belle, Collaboration, Jin, Y., MEROLA, MARIO, Campajola, Marcello, DE NARDO, GUGLIELMO, DI CAPUA, FRANCESCO, PARDI, SILVIO, RUSSO, GUIDO, Belle, Collaboration, Jin, Y., Merola, Mario, Campajola, Marcello, DE NARDO, Guglielmo, DI CAPUA, Francesco, Pardi, Silvio, Russo, Guido, and Et, Al.

Subjects
High Energy Physics - Experiment
Abstract

We present the first measurements of branching fractions of rare tau-lepton decays, $ au^- ightarrow pi^- u_ au ell^+ ell^-$ ($ell = e$ or $mu$), using a data sample corresponding to 562 fb$^-1$ collected at a center-of-mass energy of 10.58 GeV with the Belle detector at the KEKB asymmetric-energy $e^+ e^-$ collider. The $ au^- ightarrow pi^- u_ au e^+ e^-$ decay is observed for the first time with 7.0$sigma$ significance. The partial branching fraction determined by the structure-dependent mechanisms mediated by either a vector or an axial-vector current for the mass region $M_pi e e>1.05$ GeV/$c^2$ is measured to be $mathcalB( au^- ightarrow pi^- u_ au e^+ e^-)[M_pi^- e^+ e^->1.05~ m GeV/c^2] = (5.90 pm 0.53 pm 0.85 pm 0.11) imes 10^-6$, where the first uncertainty is statistical, the second is systematic, and the third is due to the model dependence. In the full phase space, due to the different detection efficiencies for the structure-dependent mechanisms mediated by axial-vector and vector currents, the branching fraction varies from $mathcalB_A( au^- ightarrow pi^- u_ au e^+ e^-) = (1.46 pm 0.13 pm 0.21) imes 10^-5$ to $mathcalB_V( au^- ightarrow pi^- u_ au e^+ e^-) = (3.01 pm 0.27 pm 0.43) imes 10^-5$, respectively. An upper limit is set on the branching fraction of the $ au^- ightarrow pi^- u_ au mu^+ mu^-$ decay, $mathcalB( au^- ightarrow pi^- u_ au mu^+ mu^-) < 1.14 imes 10^-5$, at the 90% confidence level.

Published
2019

23. Overview of recent ITER TBM Program activities

Author

M. Giancarli, Luciano, Bravo, Xavier, Cho, Seungyon, Ferrari, Marco, Hayashi, Takumi, Byoung-Yoon, Kim, Artur, Leal-Pereira, Jean-Pierre, Martins, Merola, Mario, Pascal, Romain, Schneiderova, Iva, Sheng, Qian, Sircar, Amit, Strebkov, Yuri, van der Laan, Jaap, Ying, Alice, Takumi, Hayashi, M. Giancarli, Luciano, Bravo, Xavier, Cho, Seungyon, Ferrari, Marco, Hayashi, Takumi, Byoung-Yoon, Kim, Artur, Leal-Pereira, Jean-Pierre, Martins, Merola, Mario, Pascal, Romain, Schneiderova, Iva, Sheng, Qian, Sircar, Amit, Strebkov, Yuri, van der Laan, Jaap, Ying, Alice, and Takumi, Hayashi

Abstract

The ITER Test Blanket Module (TBM) Program has significantly evolved since 2018. The number of equatorial ports allocated for operating the Test Blanket Systems (TBSs) has been reduced from three to two. As consequence, four TBSs can be simultaneously installed and operated, versus six previously. Since the dedicated space in the various rooms of the Tokamak Complex has been kept unchanged, the existing space constraints have been substantially relaxed. The paper addresses the possible selection of the four TBSs for the initial configuration and design of the involved TBMs and the main on-going R&D carried out by the ITER Members (IMs) in support of the TBS designs. It describes also the main progress of the design of the infrastructures needed for hosting the four TBSs (e.g., port plugs, port cell common components, common maintenance tools and equipment). The design of the TBS Connection Pipes (CPs) System has reached its final phase since, being captive, it needs to be installed before the First Plasma.

Published
2020

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