Birth of Intense Pulsed Muon Source, J-PARC MUSE Miyake Yasuhiro a,b,∗ Simomura Koichiro a,b Naritoshi Kawamura a,b Patrick Strasser a,b Shunsuke Makimura a,b Akihiro Koda a,b Hiroshi Fujimori a,b Kazutaka Nakahara a,b Ryosuke Kadono a,b Mineo Kato a,b Soshi Takeshita a,b Kusuo Nishiyama a,b Higemoto Wataru c,b Katushiko Ishida e Teiichiro Matsuzaki e Yasuyuki Matsuda d and Kanetada Nagamine a,e a Muon Science Laboratory, High Energy Accelerator Research Organization, Tsukuba, Ibaraki 305-0801, Japan b Muon section, Materials and life science division, J-PARC Center, 2-4 Shirane Shirakata, Tokai-mura, Naka-gun, Ibaraki 319-1195, Japan c Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan d University of Tokyo, Graduate School of ARTS and Sciences, Meguro, Komaba 3-8-1 153-8902, Japan e Advanced Meson Science Laboratory, The Institute of Physical and Chemical Research (RIKEN), Wako, Saitama 351-0198, Japan Abstract The muon science facility (MUSE), along with the neutron, hadron, and neutrino facilities, is one of the experimental areas of the J-PARC project, which was approved for construction between the period from 2001 to 2008. The MUSE facility is located in the Materials and Life Science Facility (MLF), which is a building integrated to include both neutron and muon science programs. Construction of the MLF building was started in the beginning of 2004, and was recently completed at the end of the 2006 fiscal year. We have been working on the installation of the beam line components, expecting first muon beam in the autumn of 2008. For Phase 1, we are planning to install one superconducting decay/surface channel with a modest-acceptance (about 40 msr) pion injector, with an estimated surface muon (µ + ) rate of 3 × 10 7 /s and a beam size of 25 mm diameter, and a corresponding decay muon (µ + / µ − ) rate of 10 6 /s for 60 MeV/c (up to 10 7 /s for 120 MeV/c) with a beam size of 50 mm diameter. These intensities correspond to more than ten times what is available at the RIKEN/RAL Muon facility which currently possess the most intense pulsed muon beams in the world. In addition to Phase 1, we are planning to install, a surface muon channel with a modest-acceptance (about 50 mSr) mainly for experiments relating to material sciences, and a super omega muon channel with a large acceptance of 400 mSr. In the case of the super omega muon channel, the goal is to extract 4 × 10 8 surface muons/s for the generation of ultra slow muons and 1 × 10 7 negative cloud muons/s with a momentum of 30-60 MeV/c. One of the important goals for this beam line is to generate intense ultra slow muons at MUSE, utilizing the intense pulsed VUV laser system. Approximately 2∼5×10 5 ultra slow muons/s will be expected, which will allow for the extension of µSR into the area of thin film and surface science. In the symposium, the current status of J-PARC MUSE will be reported. Key words: muon, J-PARC, MUSE, pulsed muon, MLF, remote handling, slow muon ∗ el. +81-29-284-4624, Fax: +81-29-284-4878, email: ya- suhiro.miyake@kek.jp 1. The 3GeV Proton Beam at J-PARC The J-PARC (Japan Proton Accelerator Research Complex) will be constructed in the south part of the Preprint submitted to Elsevier 18 July 2008