Physics at Super B Factory

T. Aushev; W. Bartel; A. Bondar; J. Brodzicka; T. E. Browder; P.; Chang; Y. Chao; K. F. Chen; J. Dalseno; A. Drutskoy; Y. Enari; T. Gershon; B.; Golob; T. Goto; F. Handa; K. Hara; S. Hashimoto; H. Hayashii; M. Hazumi; T.; Higuchi; J. Hisano; W. S. Hou; T. Iijima; K. Ikado; K. Inami; H. Itoh; R.; Itoh; H. Ishino; N. Katayama; Y. Y. Keum; K. Kinoshita; E. Kou; P.; Kri\v{z}an; P. Krokovny; T. Kurimoto; Y. Kwon; A. Limosani; T. Matsumoto; T.; Morozumi; Y. Nakahama; M. Nakao; S. Nishida; T. Ohshima; Y. Okada; K.; Okumura; S. L. Olsen; T. Onogi; G. Pakhlova; H. Palka; P. Pakhlov; A.; Poluektov; S. Recksiegel; H. Sagawa; M. Saigo; Y. Sakai; A. I. Sanda; C.; Schwanda; A. Schwartz; K. Senyo; Y. Shimizu; T. Shindou; R. Sinha; M.; Stari\v{c}; K. Sumisawa; M. Tanaka; K. Trabelsi; P. Urquijo; Y. Ushiroda; E.; Won; H. Yamamoto; M. Yamauchi; T. Yoshikawa; J. Zupan

arXiv:1002.5012·hep-ex·March 1, 2010·276 cites

Physics at Super B Factory

T. Aushev, W. Bartel, A. Bondar, J. Brodzicka, T. E. Browder, P., Chang, Y. Chao, K. F. Chen, J. Dalseno, A. Drutskoy, Y. Enari, T. Gershon, B., Golob, T. Goto, F. Handa, K. Hara, S. Hashimoto, H. Hayashii, M. Hazumi, T., Higuchi, J. Hisano, W. S. Hou, T. Iijima, K. Ikado

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TL;DR

This paper evaluates the potential of a high-luminosity Super B factory for advancing flavor physics and CP violation studies, highlighting its superior luminosity and expected measurement precisions compared to existing colliders.

Contribution

It provides a comprehensive analysis of the physics reach and measurement capabilities of a proposed Super B factory with unprecedented luminosity.

Findings

01

Enhanced sensitivity to flavor physics observables

02

Projected precisions surpass current collider capabilities

03

Potential to explore new physics in the LHC era

Abstract

This report presents the results of studies that investigate the physics reach at a Super $B$ factory, an asymmetric-energy $e^{+} e^{-}$ collider with a design luminosity of $8 \times 1 0^{35}$ cm $^{- 2}$ s $^{- 1}$ , which is around 50 times as large as the peak luminosity achieved by the KEKB collider. The studies focus on flavor physics and CP violation measurements that could be carried out in the LHC era. The physics motivation, key observables, measurement methods and expected precisions are presented.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · High-Energy Particle Collisions Research