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Program in muon and neutrino physics: Superbeams, cold muon beams, neutrinofactory and the muon collider

机译：μ子和中微子物理项目：超梁，冷muon梁，中微子力学和μ子对撞机

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The concept of a Muon Collider was first proposed by Budker (10) and by Skrinsky(11) in the 60s and early 70s. However, there was little substance to the concept until the idea of ionization cooling was developed by Skrinsky and Parkhomchuk (12). The ionization cooling approach was expanded by Neufer (13) and then by Palmer (14), whose work led to the formation of the Neutrino Factory and Muon Collider Collaboration (MC) (3) in 1995. The concept of a neutrino source based on a pion storage ring was originally considered by Koshkarev (18). However, the intensity of the muons created within the ring from pion decay was too low to provide a useful neutrino source. The Muon Collider concept provided a way to produce a very intense muon source. The physics potential of neutrino beams produced by muon storage rings was investigated by Geer in 1997 at a Fermilab workshop (19, 20) where it became evident that the neutrino beams produced by muon storage rings needed for the muon collider were exciting on their own merit. The neutrino factory concept quickly captured the imagination of the particle physics community, driven in large part by the exciting atmospheric neutrino deficit results from the SuperKamiokande experiment. As a result, the MC realized that a Neutrino Factory could be an important first step toward a Muon Collider and the physics that could be addressed by a Neutrino Factory was interesting in its own right. With this in mind, the MC has shifted its primary emphasis toward the issues relevant to a Neutrino Factory. There is also considerable international activity on Neutrino Factories, with international conferences held at Lyon in 1999, Monterey in 2000 (21), Tsukuba in 2001 (22), and another planned for London in 2002.

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作者
Raja, R.;
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年度 2001
页码 1-131
总页数 131
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Muon beams; Neutrino beams; Linear colliders; Decay; Ionization; Pions; Storage rings; Historical aspects; Experiment planning;

机译：muon光束;中微子光束;线性对撞机;衰变;电离; pions;存储环;历史方面;实验规划;

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专利

1. The potential for neutrino physics at muon colliders and dedicated high current muon storage rings [Review] [J] . Bigi I., Bolton T., Formaggio J., Physics Reports: A Review Section of Physics Letters (Section C) . 2002,第3期

机译：μ子对撞机和专用大电流μ子存储环上中微子物理学的潜力[综述]
2. New target solution for a muon collider or a muon-decay neutrino beam facility: The granular waterfall target [J] . Han-Jie Cai, Guanghui Yang, Nikos Vassilopoulos, Physical Review. Accelerators and Beams . 2017,第2期

机译：介子对撞机或介子衰减中微子束设施的新目标解决方案：颗粒状瀑布目标
3. Measurement of the muon beam direction and muon flux for the T2K neutrino experiment [J] . A. Ariga, A. Ereditato, A. Minamino, Prog. Theor. Exp. Phys. . 2015,第5期

机译：T2K中微子实验的介子束方向和介子通量的测量
4. Neutrino factory based on muon storage rings to muon colliders:physics and facilities [C] . Parsa Z. Sixth Biennial IEEE-USA Careers Conference, 1989., 1989 . 2001

机译：中微子工厂基于对子对撞机的μ子存储环：物理设施
5. A measurement of hadron production cross-sections for the simulation of accelerator neutrino beams and a search for muon neutrino to electron neutrino oscillations in the difference of the squared mass in approximately the 1 squared electron volt region [D] . Schmitz, David W. 2008

机译：测量强子产生横截面，以模拟加速器中微子束，并在大约1平方电子伏特区域的平方质量差中搜索μ中子到电子中微子的振荡
6. The Pandora multi-algorithm approach to automated pattern recognition of cosmic-ray muon and neutrino events in the MicroBooNE detector [O] . R. Acciarri, C. Adams, R. An, -1

机译：Pandora多算法方法可自动识别MicroBooNE检测器中的宇宙射线μ子和中微子事件
7. The Program in Muon and Neutrino Physics: Super Beams, Cold Muon Beams, Neutrino Factory and the Muon Collider [O] . Raja, Rajendran, Cline, D., Gallardo, J., 2001

机译：muon和Neutrino物理项目：超级光束，冷muon光束，中微子工厂和muon Collider

Program in muon and neutrino physics: Superbeams, cold muon beams, neutrinofactory and the muon collider

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