Publications

2015

• The JEM-EUSO mission: An introduction
  
  • Adams J.
  • Ahmad S.
  • Albert J.-N.
  • Allard D.
  • Anchordoqui L.
  • Andreev V.
  • Anzalone A.
  • Arai Y.
  • Asano K.
  • Ave Pernas M.
  • Baragatti P.
  • Barrillon P.
  • Batsch T.
  • Bayer J.
  • Bechini R.
  • Belenguer T.
  • Bellotti R.
  • Belov K.
  • Berlind A.
  • Bertaina M.
  • Biermann P.
  • Biktemerova S.
  • Blaksley C.
  • Blanc N.
  • Błȩcki J.
  • Blin-Bondil S.
  • Blümer J.
  • Bobik P.
  • Bogomilov M.
  • Bonamente M.
  • Briggs M.
  • Briz S.
  • Bruno A.
  • Cafagna F.
  • Campana D.
  • Capdevielle J-N.
  • Caruso R.
  • Casolino M.
  • Cassardo C.
  • Castellini G.
  • Catalano Christophe
  • Catalano O.
  • Cellino A.
  • Chikawa M.
  • Christl M.
  • Cline D.
  • Connaughton V.
  • Conti L.
  • Cordero G.
  • Crawford H.
  • Cremonini R.
  • Csorna S.
  • Dagoret-Campagne S.
  • de Castro A.
  • de Donato C.
  • de La Taille C.
  • de Santis C.
  • del Peral L.
  • Dell’oro A.
  • de Simone N.
  • Di Martino M.
  • Distratis G.
  • Dulucq F.
  • Dupieux M.
  • Ebersoldt A.
  • Ebisuzaki T.
  • Engel R.
  • Falk S.
  • Fang K.
  • Fenu F.
  • Fernández-Gómez I.
  • Ferrarese S.
  • Finco D.
  • Flamini M.
  • Fornaro C.
  • Franceschi A.
  • Fujimoto J.
  • Fukushima M.
  • Galeotti P.
  • Garipov G.
  • Geary J.
  • Gelmini G.
  • Giraudo G.
  • Gonchar M.
  • González Alvarado C.
  • Gorodetzky P.
  • Guarino F.
  • Guzmán A.
  • Hachisu Y.
  • Harlov B.
  • Haungs A.
  • Hernández Carretero J.
  • Higashide K.
  • Ikeda D.
  • Ikeda H.
  • Inoue N.
  • Inoue S.
  • Insolia A.
  • Isgrò F.
  • Itow Y.
  • Joven E.
  • Judd E.
  • Jung A.
  • Kajino F.
  • Kajino T.
  • Kaneko I.
  • Karadzhov Y.
  • Karczmarczyk J.
  • Karus M.
  • Katahira K.
  • Kawai K.
  • Kawasaki Y.
  • Keilhauer B.
  • Khrenov B.
  • Kim Jeong-Sook
  • Kim Soon-Wook
  • Kim Sug-Whan
  • Kleifges M.
  • Klimov P.
  • Kolev D.
  • Kreykenbohm I.
  • Kudela K.
  • Kurihara Y.
  • Kusenko A.
  • Kuznetsov E.
  • Lacombe M.
  • Lachaud C.
  • Lee J.
  • Licandro J.
  • Lim H.
  • Lopez F.
  • Maccarone M.
  • Mannheim K.
  • Maravilla D.
  • Marcelli L.
  • Marini A.
  • Martinez O.
  • Masciantonio G.
  • Mase K.
  • Matev R.
  • Medina-Tanco G.
  • Mernik T.
  • Miyamoto H.
  • Miyazaki Y.
  • Mizumoto Y.
  • Modestino G.
  • Monaco A.
  • Monnier-Ragaigne D.
  • Morales de Los Ríos J.
  • Moretto C.
  • Morozenko V.
  • Mot B.
  • Murakami T.
  • Nagano M.
  • Nagata M.
  • Nagataki S.
  • Nakamura T.
  • Napolitano T.
  • Naumov D.
  • Nava R.
  • Neronov A.
  • Nomoto K.
  • Nonaka T.
  • Ogawa T.
  • Ogio S.
  • Ohmori H.
  • Olinto A.
  • Orleański P.
  • Osteria G.
  • Panasyuk M.
  • Parizot E.
  • Park I.
  • Park H.
  • Pastircak B.
  • Patzak T.
  • Paul T.
  • Pennypacker C.
  • Perez Cano S.
  • Peter T.
  • Picozza P.
  • Pierog T.
  • Piotrowski L.
  • Piraino S.
  • Plebaniak Z.
  • Pollini A.
  • Prat P.
  • Prévôt G.
  • Prieto H.
  • Putis M.
  • Reardon P.
  • Reyes M.
  • Ricci M.
  • Rodríguez I.
  • Frías M.
  • Ronga F.
  • Roth M.
  • Rothkaehl H.
  • Roudil G.
  • Rusinov I.
  • Rybczyński M.
  • Sabau M.
  • Sáez Cano G.
  • Sagawa H.
  • Saito A.
  • Sakaki N.
  • Sakata M.
  • Salazar H.
  • Sanchez Sébastien
  • Santangelo A.
  • Santiago Crúz L.
  • Sanz Palomino M.
  • Saprykin O.
  • Sarazin F.
  • Sato H.
  • Sato M.
  • Schanz T.
  • Schieler H.
  • Scotti V.
  • Segreto A.
  • Selmane S.
  • Semikoz D.
  • Serra M.
  • Sharakin S.
  • Shibata T.
  • Shimizu H.
  • Shinozaki K.
  • Shirahama T.
  • Siemieniec-Oziȩbło G.
  • Silva López H.
  • Sledd J.
  • Słomińska K.
  • Sobey A.
  • Sugiyama T.
  • Supanitsky D.
  • Suzuki M.
  • Szabelska B.
  • Szabelski J.
  • Tajima F.
  • Tajima N.
  • Tajima T.
  • Takahashi Y.
  • Takami H.
  • Takeda M.
  • Takizawa Y.
  • Tenzer C.
  • Tibolla O.
  • Tkachev L.
  • Tokuno H.
  • Tomida T.
  • Tone N.
  • Toscano S.
  • Trillaud F.
  • Tsenov R.
  • Tsunesada Y.
  • Tsuno K.
  • Tymieniecka T.
  • Uchihori Y.
  • Unger M.
  • Vaduvescu O.
  • Valdés-Galicia J.
  • Vallania P.
  • Valore L.
  • Vankova G.
  • Vigorito C.
  • Villaseñor L.
  • von Ballmoos P.
  • Wada S.
  • Watanabe J.
  • Watanabe S.
  • Watts J.
  • Weber M.
  • Weiler T.
  • Wibig T.
  • Wiencke L.
  • Wille M.
  • Wilms J.
  • Włodarczyk Z.
  • Yamamoto T.
  • Yamamoto Y.
  • Yang J.
  • Yano H.
  • Yashin I.
  • Yonetoku D.
  • Yoshida K.
  • Yoshida S.
  • Young R.
  • Zotov M. Yu.
  • Zuccaro Marchi A.
  Experimental Astronomy, Springer Link, 2015, 40 (1), pp.3-17. (10.1007/s10686-015-9482-x)
  DOI : 10.1007/s10686-015-9482-x
• High Statistics $\Sigma p$ Scattering Experiment Using High Intensity Pion Beams at J-PARC
  
  • Miwa K.
  • Ahn J.K.
  • Akazawa Y.
  • Callier S.
  • Chiga N.
  • Evtoukhovitch P.
  • Hasegawa S.
  • Hayakawa S.
  • Hayakawa T.
  • Hosomi K.
  • Honda R.
  • Hwang S.H.
  • Ieiri M.
  • Ikeda M.
  • Imai K.
  • Ishimoto S.
  • Jung W.S.
  • Kanda H.
  • Kobayashi K.
  • Koike T.
  • Kondo Y.
  • Kim S.H.
  • Kim J.L.
  • Lee J.W.
  • Matsumoto Y.
  • Moritsu M.
  • Nakada Y.
  • Nakagawa M.
  • Nakamura I.
  • Naruki M.
  • Ogura Y.
  • Raux L.
  • Sakaguchi A.
  • Sako H.
  • Sasaki Y.
  • Sato S.
  • Shiozaki T.
  • Shirotori K.
  • Sugimura H.
  • Suzuki S.
  • Taille C. D. L.
  • Takahashi H.
  • Takahashi T.N.
  • Tamura H.
  • Tanaka M.
  • Tanida K.
  • Tsamalaidze Z.
  • Ukai M.
  • Umetsu H.
  • Yamamoto T.O.
  • Yoshimura K.
  , 2017, 17, pp.041002. In order to test theoretical frameworks of the baryon–baryon (BB) interactions and to confirm the “Pauli effect between quarks” for the first time, we have proposed an experiment (J-PARC E40) to measure low-energy hyperon–proton scattering cross sections of the Σ^+p, Σ^−p elastic scatterings and the Σ^−p → Λn inelastic scattering in the momentum range of 400 < p (MeV/c) < 700 in the laboratory system. Experimentally, we detect two successive reactions of the Σ production (π^±p → K^+Σ^±) and the Σp scattering (Σp → Σp) in the same liquid hydrogen target. The former is measured with two magnetic spectrometers, and the latter with a scattered proton detector (CATCH). By using a high intensity π beam, we estimate that more than 10,000 scattering events can be identified. In this experiment, we aim to provide good quality scattering data to test the theoretical models of the BB interaction. (10.7566/JPSCP.17.041002)
  DOI : 10.7566/JPSCP.17.041002
• SiPM arrays and miniaturized readout electronics for compact gamma camera
  
  • Dinu N.
  • Imando T. Ait
  • Nagai A.
  • Pinot L.
  • Puill V.
  • Callier S.
  • Janvier B.
  • Esnault C.
  • Verdier M.-A.
  • Raux L.
  • Vandenbussche V.
  • Charon Y.
  • Menard L.
  Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Elsevier, 2015, 787, pp.367-372. This article reports on the design and features of a very compact and light gamma camera based on SiPM arrays and miniaturized readout electronics dedicated to tumor localization during radio-guided cancer surgery. This gamma camera, called MAGICS, is composed of four (2x2) photo-detection elementary modules coupled to an inorganic scintillator. The 256 channels photo-detection system covers a sensitive area of 54x53 m^2. Each elementary module is based on four (2x2) SiPM monolithic arrays, each array consisting of 16 SiPM photo-sensors (4x4) with3x3 mm^2 sensitive area, coupled to a miniaturized readout electronics and a dedicated ASIC. The overall dimensions of the electronics fit the size of the detector, enabling to assemble side-by-side several elementary modules in a close-packed arrangement. The preliminary performances of the system are very encouraging, showing an energy resolution of 9.8% and a spatial resolution of less than 1 mm at 122 keV. (10.1016/j.nima.2015.01.083)
  DOI : 10.1016/j.nima.2015.01.083