List of Papers : Experiments for test

2008.1.18

 

T152/T214/T256/T308/T329 M. Nozaki

”½—zŽq‰F’ˆüŽÀŒ±‚̃eƒXƒg

‹C‹…“‹Ú—p’´“`“±ƒXƒyƒNƒgƒƒ[ƒ^‚̃eƒXƒg

‹C‹…“‹Ú—p’´“`“±ƒXƒyƒNƒgƒƒ[ƒ^‚̃eƒXƒg

‚a‚d‚r‚r‘ª’èŠí‚̃r[ƒ€ƒeƒXƒg

‚a‚d‚r‚r‘ª’èŠí‚̃r[ƒ€ƒeƒXƒg

 

Y. Ajima et al.

 

A superconducting solenoidal spectrometer for a balloon borne experiment.

 

Nucl.Instrum.Meth.A443:71-100,2000.

 

 

T169 J. Imazato

ƒeƒXƒgŽÀŒ±FƒÎƒÊƒ`ƒƒƒlƒ‹Eƒr[ƒ€ƒXƒ^ƒfƒB

 

K.H. Tanaka et al.

 

New monochromatic muon beam channel using two-body decay K+ ---> mu+ neutrino at rest in a production target.

 

Nucl.Instrum.Meth.A316:134-142,1992.

 

 

T181 O. Hashimoto

ƒeƒXƒgŽÀŒ±F‚j‚Q‚qƒr[ƒ€ƒ‰ƒCƒ“‚ł̃nƒCƒp[ŠjŽÀŒ±‚Ì‚½‚߂̃oƒbƒNƒOƒ‰ƒEƒ“ƒh‘΍ô‹y‚уr[ƒ€ƒgƒ‰ƒ“ƒXƒ|[ƒgÅ“K‰»

 

M. Akei et al.

 

A Broad Range Spectrometer Pik For Medium-Energy Meson Spectroscopy.

 

Nucl.Instrum.Meth.A283:46,1989.

 

 

T183 T. Sugitate

”òsŽžŠÔ·‘ª’è—pƒVƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“ŒŸoŠí‚̐«”\ŽŽŒ±Œ¤‹†

 

T. Kobayashi et al.

 

Test Of Prototypes For A Highly Segmented Tof Hodoscope.

 

Nucl.Instrum.Meth.A287:389,1990.

 

 

 

T198/T272 K. Kimura

‚o-Nucleus ”½‰ž‚É‚¨‚¯‚éMultifragmentation

Range Counter ‚É‚æ‚éNuclear Fragment ‚Ì—±Žq•Ù•Ê

T273 T. Murakami

Nuclear Fragmentation ŽÀŒ±—pphoswich ŒŸoŠí‚̃eƒXƒg

 

H. Ochiishi et al.

 

Application of Bragg curve counters to a target multifragmentation measurement.

 

Nucl.Instrum.Meth.A369:269-276,1996.

 

 

T199/T212 S. Sugimoto

‚a‚‚e‚Q‚ÆScitillation Fiber ‚̃eƒXƒg

‚a‚‚e‚QƒJƒƒŠƒ[ƒ^[‚̐«”\ƒeƒXƒg

 

S. Sugimoto et al.

 

Detection of fast pulses from large barium fluoride calorimeters.

 

Nucl.Instrum.Meth.A336:179-185,1993.

 

 

T204/T210 T. Kobayashi

‚ƒGƒlƒ‹ƒM[dƒCƒIƒ“”½‰ž‚Å‚Ì‚j‚jCƒÎƒÎŠ±ÂŽÀŒ±‚É—p‚¢‚é‚s‚n‚e ƒzƒhƒXƒR[ƒv‚̐«”\ŽŽŒ±

‚ƒGƒlƒ‹ƒM[dƒCƒIƒ“”½‰ž‚Å‚Ì‚j‚jCƒÎƒÎŠ±ÂŽÀŒ±‚É—p‚¢‚é‚s‚n‚e Hodoscope ‚̐«”\ŽŽŒ±

 

T. Kobayashi et al.

 

Test Of Prototypes For A Highly Segmented Tof Hodoscope.

 

Nucl.Instrum.Meth.A287:389,1990.

 

 

T211/T233@T. Nagae

‚d‚P‚S‚O—pƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‹y‚уGƒAƒƒWƒFƒ‹ƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚̐«”\ŽŽŒ±

‚d‚P‚S‚O‚`—pƒGƒAƒƒWƒFƒ‹ƒJƒEƒ“ƒ^[ƒEƒH[ƒ‹‚̐«”\ŽŽŒ±

 

T. Fukuda et al.

 

The Superconducting kaon spectrometer (SKS).

 

Nucl.Instrum.Meth.A361:485-496,1995.

T. Hasegawa et al.

 

A Large silica aerogel Cherenkov counter for SKS.

 

Nucl.Instrum.Meth.A342:383-388,1994.

 

 

T225/T227 S. Sugimoto

‰t‘̃[ƒmƒ“”­Œõ‚ÌŒ¤‹†‹y‚ыɍ׃Vƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“ƒtƒ@ƒCƒo[‚̐«”\•]‰¿ŽŽŒ±

‰t‘̃[ƒmƒ“EƒVƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“‚ð—p‚¢‚½‚‘¬“dŽ¥ƒVƒƒƒ[ŒŸoŠí‚ÌŠJ”­

 

M. Chen et al.

 

Homogeneous scintillating LKr / Xe calorimeters.

 

Nucl.Instrum.Meth.A327:187-192,1993.

 

 

T226 Masaaki Kobayashi

‚f‚r‚niƒKƒhƒjƒEƒ€EƒVƒŠƒP[ƒhjƒVƒ“ƒ`ƒŒ[ƒ^[“™‚̃r[ƒ€ƒeƒXƒg

 

M. Kobayashi et al.

 

A Beam test on a fast EM calorimeter of gadolinium silicate GSO(Ce).

 

Nucl.Instrum.Meth.A306:139-144,1991.

 

 

T238/347Koji Takikawa

ƒVƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“EƒJƒƒŠ[ƒ[ƒ^‚Ì•úŽËü‘¹‚Ì‘ª’è

‚r‚c‚b^‚b‚c‚eƒJƒƒŠƒ[ƒ^—pƒ^ƒCƒ‹^ƒtƒ@ƒCƒo[Œn‚ÌŒõŠw“Á«‚Ì‘ª’è

 

› Funaki et al.

 

Beam test of radiation hardness of a scintillating tile / fiber calorimeter.

 

Nucl.Instrum.Meth.A317:123-134,1992.

 

 

T240/T265/T284/T316/T348/T359/T368/T384/T396/T423/T496/T479 /514/T531/T561 Y. Miake

‚q‚g‚h‚b‚Ì‚½‚߂̍‚•ª‰ð”\”òsŽžŠÔ‘ª’èŠí‚ÌŒ¤‹†ŠJ”­

‚q‚g‚h‚b‚Ì‚½‚߂̍‚•ª‰ð”\”òsŽžŠÔ‘ª’èŠí‚ÌŒ¤‹†ŠJ”­(2)

‚q‚g‚h‚b^‚o‚g‚d‚m‚h‚w‚Ì‚½‚ß‚Ì”òsŽžŠÔ‘ª’èŠí‚ÌŠJ”­

‚q‚g‚h‚b^‚o‚g‚d‚m‚h‚w‚Ì‚½‚ß‚Ì”òsŽžŠÔ‘ª’èŠí‚̍œK‰»

‚o‚g‚d‚m‚h‚w^‚v‚`‚X‚W‚Ì‚½‚ß‚Ì”òsŽžŠÔ‘ª’èŠí‚ÌŠJ”­

‚o‚g‚d‚m‚h‚w^‚v‚`‚X‚W‚Ì‚½‚ß‚Ì”òsŽžŠÔ‘ª’èŠí‚̃r[ƒ€ƒeƒXƒg

‚ŽžŠÔ•ª‰ð”\‚Ì‹@”\‚ð•t‰Á‚µ‚½“dŽ¥ƒJƒƒŠƒ[ƒ^[‚ÌŽŽŒ±

‚o‚g‚d‚m‚h‚w^‚v‚`‚X‚W‚Ì‚½‚߂̓ǂݏo‚µ‰ñ˜H‚ÌŽŽŒ±

PHENIXŽÀŒ±‚Ì‚½‚ß‚Ì”òsŽžŠÔ‘ª’èŠí‚̃oƒbƒNƒOƒ‰ƒ“ƒh•]‰¿

PHENIX ŽÀŒ±‚Ì‚½‚ß‚Ì”òsŽžŠÔ‘ª’èŠí‚̍ŏIƒeƒXƒg

PHENIXŽÀŒ±‚Ì‚½‚߂̃AƒGƒƒWƒFƒƒJƒEƒ“ƒ^[‚ÌŠJ”­

PHENIXŽÀŒ±‚É‚¨‚¯‚é—zŽqE—zŽqÕ“ËŽÀŒ±‚Ì‚½‚ß‚ÌTime zero counter ‚ÌŽŽŒ±

‚o‚g‚d‚m‚h‚wŽÀŒ±‚Ì‚½‚߂̃AƒGƒƒWƒFƒƒJƒEƒ“ƒ^[‚ÌŠJ”­

‚o‚g‚d‚m‚h‚wŽÀŒ±‚Ì‚½‚߂̃GƒAƒƒWƒFƒŒŸoŠíŠJ”­Œ¤‹†

PHENIX ŽÀŒ± Upgrade ‚ÉŒü‚¯‚½V‚µ‚¢”òsŽžŠÔŒŸoŠí‚̐«”\•]‰¿ŽÀŒ±

T592 S. Esumi

RHIC-PHENIX‚Ì‚½‚߂̍‚ŽžŠÔ•ª‰ð”\ƒKƒXŒŸoŠíMRPC‚ÌŠJ”­

 

M. Aizawa et al.

 

PHENIX central arm particle ID detectors.

 

Nucl.Instrum.Meth.A499:508-520,2003.

M. Kurata et al.

 

Study of timing degradation and light attenuation in long plastic scintillation rods for time-of-flight counters in relativistic heavy ion experiments.

 

Nucl.Instrum.Meth.A349:447-453,1994.

Stephen Scott Adler et al.

 

Identified charged particle spectra and yields in Au+Au collisions at S(NN)**1/2 = 200-GeV.

 

Phys.Rev.C69:034909,2004.

 

 

T241(/E270/E291) Y. Wakuta

’áƒGƒlƒ‹ƒM[’†«Žq‚̃eƒXƒg‘ª’è

 

S. Meigo

 

Measurements of Neutron Spectra Produced from a Thick Iron Target Bombarded with 1.5-GeV Protons

 

Proc. International Conference on Nuclear Data for Science and Technology (ND2004),

AIP Conf, 769 (2), 1513 - 1516, 2005

S. Meigo

 

Measurements of Neutron Spectra Produced from a Thick Iron Target Bombarded with 1.5-GeV Protons

 

Proc. International Conference on Nuclear Data for Science and Technology (ND2004), AIP Conf, 769 (2), 1513 - 1516, 2005

Y. Iwamoto

 

Measurement of neutron-production double-differential cross sections for intermediate energy pion incident reaction

 

Proc. International Conference on Nuclear Data for Science and Technology (ND2001), 381 - 384, 2002

S. Meigo

 

Measurements of neutron spectra produced from a thick tungsten target bombarded with 0.5- and 1.5-GeV protons

 

Proc. International Conference on Nuclear Data for Science and Technology (ND2001), 1252 - 1255, 2002

K. Iga

 

Measurement of gamma-ray production double-differential cross sections for the spallation reaction induced by 0.8, 1.5 and 3.0 GeV protons

 

J. Nucl. Sci. Technol., 35 (5), 329 - 334, 1998

K. Ishibashi

 

Measurement of neutron-production double-differential cross sections for nuclear spallation reaction induced by 0.8, 1.5 and 3.0 GeV protons

 

J. Nucl. Sci. Technol., 34 (6), 529 - 537, 1997

T. Nakamoto

 

Experimental neutron-production double-differential cross section for the nuclear reaction by 1.5-geV ƒÎ+ mesons incident on iron

 

J. Nucl. Sci. Technol., 34 (8), 860 - 862, 1997

 

 

T242/T267 T. Shinkawa

pure CsIƒNƒŠƒXƒ^ƒ‹‚̃r[ƒ€ƒeƒXƒg

”gŒ`‰ðÍ‰ñ˜H‚É‚æ‚éƒÎ{’†ŠÔŽq‚Ì•ö‰ó‚ÌŠÏ‘ª

 

T.K. Komatsubara et al.

 

Performance of fine mesh photomultiplier tubes designed for an undoped CsI endcap photon detector.

 

Nucl.Instrum.Meth.A404:315-326,1998.

Masaaki Kobayashi et al.

 

YAlO-3:Ce-Am light pulsers as a gain monitor for undoped CsI detectors in a magnetic field.

 

Nucl.Instrum.Meth.A337:355-361,1994.

 

 

T243/T277/T297@K. Hoshino

Œ´ŽqŠjŠ£”‚̐«”\ŽŽ

Œ´ŽqŠjŠ£”‚̊´“x‹­§—ò‰»ŽŽŒ±

Œ´ŽqŠjŠ£”‚̘cŒ¸­ŽŽŒ±

 

S. Aoki et al.

 

Nuclear emulsions in a large, hybrid experiment (CHORUS) to search for nu/mu --> nu/tau oscillations.

 

Nucl.Instrum.Meth.A447:361-376,2000.

 

 

T249 S. Uno

‚aƒtƒ@ƒNƒgƒŠ[—pƒKƒX”òÕŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

 

S. Uno et al.

 

Study of a drift chamber filled with a helium - ethane mixture.

 

Nucl.Instrum.Meth.A330:55-63,1993

 

 

T252 Masaaki Kobayashi

‚f‚r‚n‹y‚Ñ‚b‚“‚hƒVƒ“ƒ`ƒŒ[ƒ^[‚Ì—zŽqE’†«Žq‚ɑ΂·‚é•úŽËü‘¹‚Ì‘ª’è

 

M. Kobayashi et al.

 

Radiation hardness of cerium doped gadolinium silicate Gd2SiO5:Ce against high-energy protons, fast and thermal neutrons

 

Nucl. Instrum. Meth. A330:115-120,1993.

M. Kobayashi et al.

 

Radiation hardness of undoped CsI crystals against high-energy protons

 

Nucl. Instrum. Meth. A328:501-505,1993.

M. Kobayashi et al.

 

Radiation hardness of undoped CsI crystals against high energy protons

 

Proc. Internat'l Workshop CRYSTAL 2000, Chamonix France, 22-26, @September, 1992, p.513-517.

M. Kobayashi et al.

 

Further study on radiation hardness of GSO:Ce with 12 GeV protons, thermal neutrons and low energy ƒÁ-rays

 

Proc. Internat'l Workshop CRYSTAL 2000, Chamonix France, 22-26, @September, 1992, p. 507-511.

 

 

T253 Masaaki Kobayashi

d‚­A‰ž“š‚Ì‘‚¢AV‚µ‚¢Œ‹»ƒVƒ“ƒ`ƒŒ[ƒ^[‚̃eƒXƒg

 

M. Kobayashi et al.

 

Scintillation characteristics of PbWO4 single crystals at room temperature

 

Nucl. Instrum. Meth. A333:429-433,1993.

M. Kobayashi et al.

 

PbWO4 scintillator at room temperatur

 

Proc. Internat. Workshop CRYSTAL 2000, Chamonix, France, 22-26 September, 1992, p.375-379

 

 

T258 Kazuo Abe

ƒvƒ‰ƒXƒ`ƒbƒNƒVƒ“ƒ`ƒŒ[ƒ^[‚Æ‚b‚“‚hŒ‹»‚Ì‘g‚ݍ‡‚킹‚½ŒŸoŠí‚É‚æ‚é‚s‚n‚e‚Æ“dŽ¥ƒJƒƒŠƒƒgƒŠ[‚Ì“¯Žž‘ª’èiƒeƒXƒgŽÀŒ±j

 

– By B Physics Task Force (K. Abe et al.)

 

Progress report on physics and detector at KEK Asymmetric B Factory.

 

KEK-92-3, May 1992. 272pp.

To be submitted to the TRISTAN Program Advisory Committee.

 

 

T259 Nobuaki Sato

‚b‚“‚hi‚s‚ŒjƒJƒƒŠƒ[ƒ^‚̃Gƒlƒ‹ƒM[•ª‰ð”\EˆÊ’u•ª‰ð”\‚Ì‘ª’è

 

– By B Physics Task Force (K. Abe et al.)

 

Progress report on physics and detector at KEK Asymmetric B Factory.

 

KEK-92-3, May 1992. 272pp.

To be submitted to the TRISTAN Program Advisory Committee.

 

 

T263/T271/T290/T335/T385 H. Kichimi

‚a-ƒtƒ@ƒNƒgƒŠ[TOFƒJƒEƒ“ƒ^[‚Ì“Á«ŽŽŒ±

‚a-ƒtƒ@ƒNƒgƒŠ[TOFƒJƒEƒ“ƒ^[‚Ì“Á«ŽŽŒ±

‚a-ƒtƒ@ƒNƒgƒŠ[TOFƒJƒEƒ“ƒ^[‚Ì“Á«ŽŽŒ±

‚a‚d‚k‚k‚d‘ª’èŠí—pTOFƒJƒEƒ“ƒ^[‚Ì“Á«ŽŽŒ±

‚a‚d‚k‚k‚d@‚s‚n‚eƒJƒEƒ“ƒ^[ƒr[ƒ€ƒeƒXƒg

 

H.Kichimi et.al,

 

The Belle TOF system

 

Nucl.Instrum.Meth.A453:315-320,2000

H.Kichimi et.al,

 

Timing characteristics of microchannel plate and fine mesh photomultiplier tubes in a 1-tesla field.

 

Nucl.Instrum.Meth.A325:451-457,1993.

 

 

T276 Nobuaki Sato

‚T~‚Tƒ}ƒgƒŠƒbƒNƒX‚b‚“‚h(‚s‚‰)Œ‹»‚̃Gƒlƒ‹ƒM[•ª‰ð”\EˆÊ’u•ª‰ð”\‚Ì‘ª’è

 

– By BELLE Collaboration (M.T. Cheng et al.)

 

Letter of intent for a study of CP violation in B meson decays.

 

By BELLE Collaboration (M.T. Cheng et al.). KEK-94-2, Apr 1994. 199pp.

 

 

T279/T280/T330/T355 Y. Unno

‚r‚c‚b—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg-

‚r‚c‚b—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg-

‚‘¬ƒfƒBƒWƒ^ƒ‹“Ǐo‚‘Ï•úŽËü—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

—zŽqü‘¹‚ðŽó‚¯‚½‚‘¬ƒfƒBƒWƒ^ƒ‹“Ǐo—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

 

Y. Unno et al.

 

Beam tests of a double-sided silicon strip detector with fast binary readout electronics before and after proton-irradiation

 

Nucl. Instr. Meth. A383: 211-222, 1996

 

 

T279/T280/T330 Y. Unno

‚r‚c‚b—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg-

‚r‚c‚b—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg-

‚‘¬ƒfƒBƒWƒ^ƒ‹“Ǐo‚‘Ï•úŽËü—¼–ʃVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

 

Y. Unno et al.

 

Characterization of an irradiated Double-sided Silicon Strip Detector with Fast Binary Readout Electronics in a Pion Beam

 

IEEE Trans. Nucl. Scie. 43:1175-1179, 1996

 

 

T281 R. Hayano

‚q‚g‚h‚bŽÀŒ±‚Ì‚½‚߂̃Šƒ“ƒOEƒCƒ[ƒWƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚ÌŠJ”­

 

Y. Akiba et al.

 

Ring imaging Cherenkov detector of PHENIX experiment at RHIC.

 

Nucl.Instrum.Meth.A433:143-148,1999.

 

 

T282 K. Kurita

‚ƒGƒlƒ‹ƒM[dƒCƒIƒ“Õ“ËŽÀŒ±—p‚s‚o‚b‚̐«”\ŽŽŒ±

 

By BNL-AGS E802/866 Collaboration (K. Shigaki et al.).

 

A forward magnetic spectrometer system for high-energy heavy ion experiments.

 

Nucl.Instrum.Meth.A438:282-301,1999.

 

 

T283/T319 S. Terada

‚r‚c‚bƒ~ƒ…[ƒIƒ“Eƒvƒƒgƒ^ƒCƒvƒVƒXƒeƒ€‚̃r[ƒ€EƒeƒXƒg

‚r‚c‚bƒ~ƒ…[ƒIƒ“ŒŸoŠíEƒvƒƒgƒ^ƒCƒvƒVƒXƒeƒ€‚̃r[ƒ€ƒeƒXƒg

 

M. Campbell et al.

 

Muon trigger electronics for hadron collider experiments.

 

Nucl.Instrum.Meth.A365:169-175,1995.

K. Abe, et al

 

Beam tests of the prototype level-1 trigger system and drift tubes with field-shapers proposed for the SDC barrel muon system

 

Nucl. Instrum. Meth. A366: 310-319, 1995

 

 

T285/T298/322 T. Sugitate

Õ“ËŒ^‰Á‘¬ŠíŽÀŒ±—pƒ^ƒCƒ€ƒ[ƒŒŸoŠí‚ÌŠJ”­

Õ“ËŒ^‰Á‘¬ŠíŽÀŒ±—pƒ^ƒCƒ€ƒ[ƒŒŸoŠí‚ÌŠJ”­i‚Qj

Õ“ËŒ^‰Á‘¬ŠíŽÀŒ±—pƒ^ƒCƒ€ƒ[ƒŒŸoŠí‚ÌŠJ”­i‚Rj

 

K. Ikematsu et al.

 

A Start - timing detector for the collider experiment PHENIX at RHIC-BNL.

 

Nucl.Instrum.Meth.A411:238-248,1998.

 

 

T296 T. Inagaki

ƒvƒ‰ƒXƒ`ƒbƒNƒVƒ“ƒ`ƒŒ[ƒ^[‚Ì•sŠ´“Á«‚ɂ‚¢‚ẴeƒXƒgŽÀŒ±

 

Takao Inagaki et al.

 

Detection inefficiency of a 10-mm thick plastic scintillation counter for 1-GeV/c e+-, pi+- and protons.

 

Nucl.Instrum.Meth.A359:478-484,1995.

 

 

T300 T. Sumiyoshi

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±‚Ì‚½‚ß‚Ì’á‹üÜ—¦ƒGƒAƒƒQƒ‹ƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚ÌŠJ”­

 

I. Adachi et al.

 

Study of a threshold Cherenkov counter based on silica aerogels with low refractive indices.

 

Nucl.Instrum.Meth.A355:390-398,1995.

R. Enomoto et al.

 

Feasibility study of single photon counting using a fine mesh phototube for an aerogel readout.

 

Nucl.Instrum.Meth.A332:129-133,1993.

 

 

T301 Shinhong Kim

ƒVƒ“ƒ`ƒŒ[ƒeƒBƒ“ƒOEƒtƒ@ƒCƒo[”òÕŒŸoŠí‚̐«”\ƒeƒXƒg

 

– ’r“c@‘ñŽj

 

Study of the Scintillating Fiber Tracker for the CDF Forward Momentum Spectrometer

 

’}”g‘åŠw

 

 

T305 Y. Fujii

‚i‚k‚bŽÀŒ±‚Ì‚½‚߂̃JƒƒŠƒ[ƒ^ƒeƒXƒgƒ‚ƒWƒ…[ƒ‹‚̃r[ƒ€ƒeƒXƒg

 

K. Ishii et al.

 

Performance studies of a lead-scintillation fiber calorimeter prototype for the linear collider detector.

 

Nucl.Instrum.Meth.A385:215-224,1997.

 

 

T318 S. Sugimoto

ƒKƒ“ƒ}[ü‚É—LŠ´‚È‚o‚‚‚v‚n‚SŒ‹»ƒ‰ƒCƒgƒKƒCƒh‚ÌŠJ”­

T474 Masaaki Kobayashi

K+‹H•ö‰óŽÀŒ±—p‚ÌGSO:CeƒVƒ“ƒ`ƒŒ[ƒ^[‚ÆPWOƒ`ƒFƒŒƒ“ƒRƒt‚̃eƒXƒg

 

M. Kobayashi et al.

 

A new heavy and radiation-hard Cherenkov radiator based on PbWO-4.

 

Nucl.Instrum.Meth.A459:482-493,2001.

 

 

T320 K. Takamatsu

‚o‚v‚nŒ‹»‚̃r[ƒ€ƒeƒXƒgi‚f‚`‚l‚r‹¤“¯Œ¤‹†j

S. Inaba et al.

 

The Slow proton position sensitive time-of-flight detector of the GAMS NA-12/2 experiment at CERN.

 

Nucl.Instrum.Meth.A342:389-397,1994.

 

 

T323 H. Sato

•Î‹Éd—zŽq‚̉Á‘¬‹y‚ѕ΋ɓx‘ª’è

 

S. Nakamura et al.

 

Acceleration of polarized electrons in ELSA.

 

Nucl.Instrum.Meth.A411:93-106,1998.

T.Adachi et al.

 

Polarized Deuteron Beam Acceleration at the KEK-PS

 

Proceedings of the 12th Int. Symp. on High Energy Spin Physics, Amsterdam, Netherlands, 1996, p.535

M.Fujieda et al.

 

The Deuteron Polarimeter for the KEK-PS

 

KEK Report 96-6

 

 

T333/T345 T. Sumiyoshi

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±‚Ì‚½‚ß‚Ì—±ŽqŽ¯•Ê‘•’u‚ÌŠJ”­

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±‚Ì‚½‚߂̃GƒAƒƒQƒ‹Eƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚ÌŠJ”­

 

T. Iijima et al.

 

Aerogel Cherenkov counter for the BELLE detector.

 

Nucl.Instrum.Meth.A453:321-325,2000.

T. Sumiyoshi et al.

 

Silica aerogel Cherenkov counter for the KEK B factory experiment.

 

Nucl.Instrum.Meth.A433:385-391,1999.

C. Lu et al. 1

 

Prototype studies of a fast RICH detector with a CsI photocathode.

 

Nucl.Instrum.Meth.A371:155-161,1996.

T. Iijima et al.

 

Study on fine mesh PMTs for detection of aerogel Cherenkov light.

 

Nucl.Instrum.Meth.A387:64-68,1997.

T. Iijima et al.

 

Aerogel Cherenkov counter for the BELLE experiment.

 

Nucl.Instrum.Meth.A379:457-459,1996.

S.K. Sahu et al.

 

Measurement of radiation damage on silica aerogel Cherenkov radiator.

 

Nucl.Instrum.Meth.A382:441-446,1996.

 

 

T334 H. Shimizu

‚d‚r‚P‚S‚OŽÀŒ±—p‚b‚“‚hipurejŒŸoŠí‚Ì‚…^ƒÎ•ª‰ð”\‚̃r[ƒ€ƒeƒXƒg

 

H. Yamazaki et al.

 

Response of pure CsI to charged pions in the intermediate-energy region.

 

Nucl.Instrum.Meth.A391:427-434,1997.

 

 

T335 H. Kichimi

‚a‚d‚k‚k‚d‘ª’èŠí—p‚s‚n‚eƒNƒ“ƒ^[‚Ì“Á«ŽŽŒ±

 

J.Lu et al.

 

Performance test of a double-layer TOF scintillation counter

 

Nucl.Instrum.Meth.A437:206-211,1999.

 

 

T339 H. Kichimi

¬Œ^‚b‚b‚sŒŸoŠíiƒ`ƒFƒŒƒ“ƒRƒt‘ŠŠÖŽžŠÔŒŸoŠíj‚Ì“Á«ŽŽŒ±

H.Kichimi et al.

 

The Cerenkov Correlated Timing DetectorFbeam test results from quartz and acrylic bars.

 

Nucl.Instrum.Meth.A371:91-95,1996

D.Aronstein et al.

 

The Cherenkov correlated timing detector: Materials, geometry and timing constraints

 

Nucl.Instrum.Meth.A371:87-90,1996

D.F. Anderson et al.

 

Lead Fluoride: An Ultracompact Cherenkov Radiator for EM Calorimetry.

 

Nucl.Instrum.Meth.A290:385,1990.

 

 

T341 K. Nakazawa

ƒLƒƒƒsƒ‰ƒŠ[‹y‚уVƒ“ƒ`ƒŒ[ƒeƒBƒ“ƒOEƒtƒ@ƒCƒo[ŒŸoŠí‚̃eƒXƒg

 

A. Ichikawa et al.

 

Scintillating microfibers as a high resolution tracking detector for hybrid-emulsion experiment.

 

Nucl.Instrum.Meth.A417:220-229,1998.

 

 

T342 T. Yamanaka

‚e‚m‚`‚k@‚j‚s‚…‚uŽÀŒ±—pƒtƒHƒ“ƒgƒxƒg-ƒJƒEƒ“ƒ^[i‚b‚`j‚̃r[ƒ€ƒeƒXƒg

 

K. Hanagaki

 

FNAL KTeVŽÀŒ±—pƒÁüŒŸoŠí-Collar Anti-‚ÌŒ¤‹†ŠJ”­

 

Master Thesis, Osaka University, March 1995

 

 

T346 Ichiro Adachi

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±‚Ì‚½‚ß‚Ì‚q‚h‚b‚g‚ÌŠJ”­

 

C. Lu et al.

 

Prototype studies of a fast RICH detector with a CsI photocathode.

 

Nucl.Instrum.Meth.A371:155-161,1996.

 

 

T349 Masami Fukushima

‚a‚d‚k‚k‚dŒŸoŠíŠJ”­‚Ì‚½‚߂̃eƒXƒgŽÀŒ±

 

› Y. Ohshima et al.

 

Beam test of the CsI(Tl) calorimeter for the BELLE detector at the KEK B factory.

 

Published in Nucl.Instrum.Meth.A380:517-523,1996

 

 

T353 K. Ishibashi

‚ƒGƒlƒ‹ƒM[“üŽË’†«Žq‘ª’è–@‚ÉŠÖ‚·‚éƒeƒXƒgŽÀŒ±

 

M. Nishimura

 

Quasi-Elastic Cross Sections for 1GeV Protons Incident on 4He and 12C

 

Proc. the 1996 Symposium on Nuclear Data, JAERI-Conf, 97-005, 252-257, 1997

 

 

T363 S. Terada

‚o‚r-‚d‚o‚Pƒr[ƒ€‚ð—˜—p‚µ‚½A—zŽqü‚É‚æ‚éƒVƒŠƒRƒ“ˆÊ’uŒŸoŠí‚Ì•úŽËü‘¹‚ÌŒ¤‹†

 

S. Terada et al.

 

Proton irradiation on P bulk silicon strip detectors using 12-GeV PS at KEK.

 

Nucl.Instrum.Meth.A383:159-165,1996.

 

 

T363 S. Terada

‚o‚r-‚d‚o‚Pƒr[ƒ€‚ð—˜—p‚µ‚½A—zŽqü‚É‚æ‚éƒVƒŠƒRƒ“ˆÊ’uŒŸoŠí‚Ì•úŽËü‘¹‚ÌŒ¤‹†

T383 Y. Unno

‚Žƒoƒ‹ƒN‚ŽƒXƒgƒŠƒbƒvƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒv‘ª’èŠí‚̍‚‘¬‚Q’l“Ǐoƒr[ƒ€ƒeƒXƒg

 

Y. Unno et al.

 

Beam Test of a Large Area n-on-n Silicon Strip Detector with Fast Binary Readout Electronics

 

IEEE Trans. Nucl. Scie. 44, 736-742, 1997

 

 

T365 Y. Fujii

‚i‚k‚bƒVƒŠƒRƒ“ƒpƒbƒh‘ª’èŠí‚̃r[ƒ€ƒeƒXƒg

 

F. Kajino et al.

 

Silicon pad detector for a calorimeter at JLC.

 

Nucl.Instrum.Meth.A383:260-262,1996.

 

 

T367 Shigeki Mori

‚b‚c‚eE‚s‚n‚e—pƒtƒHƒgƒ}ƒ‹‚̃eƒXƒgŽÀŒ±

 

T. Tsujita

 

Test of a 3-m long, 4x4-cm**2 time-of-flight (TOF) scintillation counter using 38x38-mm**2 fine-mesh photomultipliers in magnetic fields up to 1.5-T.

 

Nucl.Instrum.Meth.A383:413-423,1996.

 

 

T370 T. Suzuki

ƒjƒ…[ƒgƒŠƒmU“®ŽÀŒ±Ž{Ý‚ÌDecay Volume(DV)ŽÕ•Á‘Ì“y‚Ì•úŽË‰»–Í‹[ŽÀŒ±

 

Takenori Suzuki

 

Soil shielding benchmark experiment and its simulation with MARS using

secondary particles produced by 12 GeV protons

 

Radiation Protection Dosimetry, vol. 78, No. 4, pp.305-312 (1998)

 

 

T378 T. Kishimoto

ƒÁü‚É‚æ‚é‚P‚Rƒ©‚b‚Ì‚ƒ©‚R^‚Q‚Æ‚ƒ©‚P^‚Q‚Ìsplitting‘ª’è‚Ì‚½‚߂̃eƒXƒg

 

A.Sakaguchi et al.

 

Structure of $_{Lambda}^{13}$C hypernucleus studied by the (K$^{-}$,$€pi^{-} €gamma$) reaction

 

Nucl. Phys. A721 (2003) 979c-982c (PANIC02 Proceeding)

A.Sakaguchi et al.

 

Recent data from E929 experiment at BNL

 

Nucl. PHys. A691 (2001) 205c-211c (HYP2000@ Proceeding)

S.Ajimura et al.

 

Observation of Spin-Orbit Splitting in $€Lambda$ Single-Particle States

 

Phys. Rev. Lett. 85 (2001) 4255-4258

H.Kohri et al.

 

$_{€Lambda}^{13}$C hypernucleus studied with the $^{12}$C(K$^{-},$€pi^{-} €gamma$) reaction

 

Phys. Rev. C65 (2002) 034607-1 - 9

 

 

T379 K. Nakazawa

R&D of Tracking Detector based onplastic secintillating fiber bandle

T386 S. Aoki

‚d‚R‚V‚R‚Ì‚½‚߂̍‚¸“x‹OÕŒŸoŠí‚ÌŠJ”­Œ¤‹†

 

H. Takahashi et al.

 

Scintillating-fiber-block detector for studying double-strangeness nuclei.

 

Nucl.Instrum.Meth.A483:689-697,2002.

 

 

T380 M. Nozaki

‹C‹…“‹ÚŒ^ƒGƒAƒƒQƒ‹ƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‹y‚Ñ‚s‚n‚eƒJƒEƒ“ƒ^[‚̐«”\•]‰¿

T402 T. Mitsui

‹C‹…“‹ÚŒ^‘ª’èŠíi‚a‚d‚r‚rj—pV‚s‚n‚eƒJƒEƒ“ƒ^‚ÌŠr³

 

Y. Shikaze

 

Large area scintillator hodoscope with 50 ps timing resolution onboard BESS.

 

Nucl.Instrum.Meth.A455:596-606,2000.

 

 

T387 K. Hara

‚b‚c‚eƒtƒ@ƒCƒo[”òÕŒŸoŠí‚¨‚æ‚Ñ‚f‚r‚nƒJƒƒŠ[ƒ[ƒ^‚̃r[ƒ€ƒeƒXƒg

 

› M. Tanaka

 

Applications of cerium-doped gadolinium silicate Gd-2_SiO-5:Ce scintillator to calorimeters in high-radiation environment.

 

Nucl.Instrum.Meth.A404:283-294,1998.

 

 

T389/T439/T444/T453/T484 T. Ohshima

Light Emission-Angle based TOF counter‚̃eƒXƒg

ƒ`ƒFƒŒƒ“ƒRƒtŒõ‚ð—p‚¢‚½‚o‚h‚ccounter‚ÌŠJ”­

ƒ`ƒFƒŒƒ“ƒRƒtŒõ‚ð—p‚¢‚½—±ŽqŽ¯•Ê‘•’u‚ÌŠJ”­

ƒ`ƒFƒŒƒ“ƒRƒtŒõ‚ð—p‚¢‚½—±ŽqŽ¯•Ê‘•’u‚ÌŠJ”­

ƒ`ƒFƒŒƒ“ƒRƒtŒõ‚ð—p‚¢‚½—±ŽqŽ¯•Ê‘•’u‚s‚n‚ocounter ‚ÌŠJ”­

 

T. Hokuue et al.

 

R & D report on fine-mesh multi-anode PMT with TTS = 100-ps under B <= 1-T.

 

Nucl.Instrum.Meth.A494:436-440,2002.

Y. Enari et al.

 

Progress report on Time-Of-Propagation counter - a new type of ring imaging Cherenkov detector.

 

Nucl.Instrum.Meth.A494:430-435,2002.

Takayoshi Ohshima

 

Test result of time-of-propagation Cherenkov counter.

 

Nucl.Instrum.Meth.A453:331-335,2000.

M. Akatsu et al.

 

Time of propagation Cherenkov counter for particle identification.

 

Nucl.Instrum.Meth.A440:124-135,2000.

 

 

T397 N. Saito

Pion-Muon Separationwith a Prototype of Muon Identifier for PHENIX Experiment

 

H. Akikawa et al.

 

PHENIX muon arms.

 

Nucl.Instrum.Meth.A499:537-548,2003.

S.H. Aronson et al.

 

PHENIX magnet system.

 

Nucl.Instrum.Meth.A499:480-488,2003.

 

 

T399 T. Murakami

’áƒGƒlƒ‹ƒM[ƒÎ{’†ŠÔŽq—pƒŒƒ“ƒWEƒJƒEƒ“ƒ^[‚ÌŠJ”­

 

Y. Tanaka et al.

 

Data acquisition system for a target multifragmentation experiment with large solid angle detectors.

 

Nucl.Instrum.Meth.A425:323-331,1999.

 

 

T401 T. Fukuda

ƒ‰ƒ€ƒ_ƒnƒCƒp[ŠjŒ¤‹†‚Ì‚½‚߂̉~“›Œ^ŒŸoŠíŒn‚̐«”\ƒeƒXƒg

 

T.Tamagawa et al.

 

The $€Xi$N interaction in qusi-free $€Xi^{-}$ production

 

Nucl. Phys. A691 (2001) 234c-237c (HYP2000@ Proceeding)

J.K.Ahn et al.

 

Production of $^{4}_{€Lambda€Lambda}$H Hypernuclei

 

Phys. Rev. Lett. 87 (2001) 132504-1 - 5

 

 

T405/T411 Y. Fujii

•âžŒ^ƒnƒhƒƒ“ƒJƒƒŠƒ[ƒ^‚̕⏞“_‚̐¸–§‘ª’è

•âžŒ^‚•ª‰ð”\ƒ^ƒCƒ‹ƒtƒ@ƒCƒo[ƒnƒhƒƒ“ƒJƒƒŠƒ[ƒ^‚̐«”\‚̐¸–§‘ª’è

 

S. Uozumi et al.

 

Performance of a compensating lead / plastic-scintillator tile / fiber calorimeter.

 

Nucl.Instrum.Meth.A487:291-307,2002.

Y. Fujii et al.

 

Performance of compensated tile-fiber hadron calorimeter.

 

Nucl.Instrum.Meth.A453:237-241,2000.

T. Suzuki et al.

 

A systematic measurement of energy resolution and e/pi ratio of a lead/plastic-scintillator sampling calorimeter.

 

Nucl.Instrum.Meth.A432:48-65,1999.

N.Nakajima et.al.

 

Study of cascade shower fluctuation with a

@ tile/fiber sampling calorimeter

 

J.Phys.Soc.Japan,2716-2727,2005

 

 

T406, T416 Y. Unno

‚Žƒoƒ‹ƒN‚ŽƒXƒgƒŠƒbƒvƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒv‘ª’èŠí‚Ì‚ŽƒXƒgƒŠƒbƒv•ª—£‚̃r[ƒ€ƒeƒXƒg

‚Žƒoƒ‹ƒN‚ŽƒXƒgƒŠƒbƒvƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒv‘ª’èŠí‚Ì‚ŽƒXƒgƒŠƒbƒv•ª—£‚̃r[ƒ€ƒeƒXƒgi??j

 

Y. Unno et al.

 

Evaluation of p-stop structures in the n-side of n-on-n silicon strip detectors

 

IEEE Trans. Nucl. Scie. Vol. 45, pp. 401-405, 1998

 

 

T408 K. Maehata

ƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‚̃eƒXƒg

T434 N. Shigyo

ƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‚̃eƒXƒg

 

H. Tenzou et al.

 

Use of quadratic relationship between position and drift time in a cylindrical-type drift chamber.

 

Nucl.Instrum.Meth.A454:299-305,2000.

H. Tenzou

 

Study of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads

 

IEEE Trans. Nucl. Sci., 48 (5), 1672 - 1678, 2001

 

 

T410 K. Yoshimura

‹C‹…“‹ÚŒ^ƒGƒAƒƒQƒ‹ƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚̐«”\•]‰¿

 

Y. Asaoka et al.

 

Development of a large area aerogel Cherenkov counter on board BESS.

 

Nucl.Instrum.Meth.A416:236-242,1998.

 

 

T412/T435@Y. Sugimoto

‚b‚b‚cŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

‚b‚b‚cŒŸoŠí‚Ì‹óŠÔ•ª‰ð”\‚̃eƒXƒgi??j

 

T. Aso

 

CCD-based vertex detector for JLC

 

Nucl.Instrum.Meth.A511:235-239,2003.

 

 

T415 T. Inagaki

‰”EƒVƒ“ƒ`ƒŒ[ƒ^[Ï‘wŒ^ƒJƒƒŠƒ[ƒ^[‚̃r[ƒ€ƒeƒXƒg

 

H. Watanabe et al.

 

Scintillator-lucite sandwich detector for n / gamma separation in the GeV energy region.

 

Nucl.Instrum.Meth.A484:118-128,2002.

Y. Yoshimura et al.

 

Plastic scintillator produced by the injection-molding technique.

 

Nucl.Instrum.Meth.A406:435-441,1998.

 

 

T420 A. Taketani

Test of Muon Identifier Panel for PHENIX Experiment

 

A. Taketani

 

Silicon vertex tracker for PHENIX detector at the central rapidity region.

 

Nucl.Instrum.Meth.A541:137-143,2005.

Z. Li et al.

 

Electron beam and laser testing on the novel stripixel detectors.

 

Nucl.Instrum.Meth.A541:21-28,2005.

 

 

T429 Y. Unno

•úŽËü‘¹‚ðŽó‚¯‚½ƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒv‘ª’èŠí‚̃r[ƒ€ƒeƒXƒg

 

Y. Unno et al.

 

Evaluation of Radiation Damaged P-in-n and N-in-n Silicon Microstrip Detectors

 

IEEE Trans. Nucl. Scie., 46, pp 1957-1963, 1999

 

 

T431 T. Ohshima

‘åŠp“x“üŽË—±Žq‚É‚½‚¢‚·‚éƒJƒ\[ƒh“ǂݏo‚µˆÊ’u•ª‰ð”\‚ÌŒ¤‹†

 

M. Akatsu et al.

 

Cathode image readout in the BELLE central drift chamber.

 

Nucl.Instrum.Meth.A454:322-333,2000.

 

 

T432 T. Yoshida

‚a‚d‚r‚r‘ª’èŠí”½—zŽqŒŸoŒø—¦‚̐¸–§‘ª’è

 

Y. Asaoka et al.

 

Measurement of low-energy anti-proton detection efficiency in BESS below 1-GeV.

 

Nucl.Instrum.Meth.A489:170-177,2002.

 

 

T436 T. Kamae

‰F’ˆŠÂ‹«‚É‚¨‚¯‚é—zŽqü‚̃tƒHƒXƒEƒBƒbƒ`EƒJƒEƒ“ƒ^[‚ւ̉e‹¿

 

M. Tashiro, et al.

 

Performance of the Astro-E Hard X-Ray Detector''

 

IEEE Trans-NS €underline{49} (2002) 1893

M. Kokubun, et al.

 

In-Orbit Performance of the Hard X-ray Detector on board Suzaku

 

Publ.Astron.Soc.Japan, 59 (2007) 53

T. Takahashi et al.

 

 

 

Publ.Astron.Soc.Japan, 59 (2007) 35

 

 

T441/T451/T482 K. Hoshino

Œ´ŽqŠjŠ£”‚̐«”\•]‰¿

‚l‚d‚riMachine coated Emulsion Sheetj‚̐«”\•]‰¿

‚l‚d‚r(Machine coated Emulsion Sheet)‚̐«”\•]‰¿

 

T. Nakamura et al.

 

The OPERA film: New nuclear emulsion for large-scale, high-precision experiments.

 

Nucl.Instrum.Meth.A556:80-86,2006.

 

 

T442/T492/T513/T580 T. Nomura

‹H•ö‰óƒ‚[ƒh‚j‚k¨ƒÎ‚OƒËƒË‚Ì’TõŽÀŒ±‚Ì‚½‚ß‚ÌŒõŽqvetoŒŸoŠí‚ÌŠJ”­

‚j‚k¨ƒÎ‚O‚u‚u‚Ì’TõŽÀŒ±‚Ì‚½‚ß‚Ì’†«Žq•s•ûŠ´Œ^ŒõŽqŒŸoŠí‚ÌŠJ”­

‚j‚k¨ƒÎ‚OƒËƒËŽÀŒ±—pŒõŽqŒŸoŠí‚̑΃nƒhƒƒ“”½‰ž‚Ì‘ª’è

‚j‚k¨ƒÎ‚OƒËƒËŽÀŒ±—pvetoŒŸoŠí‚̐«”\•]‰¿

 

H. Morii et al.

 

Quenching effects in nitrogen gas scintillation.

 

Nucl.Instrum.Meth.A526:399-408,2004.

 

 

T443/449/T463 N. Shigyo

@443‚̓ŠƒXƒg‚©‚ç‚Ê‚¯‚Ä‚¢‚éB

‰t‘Ì—L‹@ƒVƒ“ƒ`ƒŒ[ƒ^‚m‚d‚Q‚P‚R‚̍‚ƒGƒlƒ‹ƒM[’†«ŽqŒŸoŒø—¦‘ª’è

‰t‘Ì—L‹@ƒVƒ“ƒ`ƒŒ[ƒ^’†«ŽqŒŸoŠí‚̃eƒXƒg

 

ƒŠƒXƒg‚Ì‚Q”Ô‚Æ‚¢‚¤‚Ì‚Í‚í‚©‚ç‚È‚¢B

D. Satoh

 

Neutron-production double-differential cross sections of iron and lead by 0.8 and 1.5 GeV protons in the most-forward direction

 

J. Nucl. Sci. Technol., 40 (5), 283 - 290, 2003.

N. Shigyo

 

Measurement of neutron-production double-differential cross sections@for 0.8 and 1.5 GeV proton incidence in the most-forward directions

 

Proc. International Conference on Nuclear Data for Science and Technology (ND2001), 417 - 420, 2002

D. Satoh

 

Development of SCINFUL-QMD code to calculate the neutron detection efficiencies for liquid organic scintillator up to 3 GeV

 

Proc. International Conference on Nuclear Data for Science and Technology (ND2001), 657 - 660, 2002

D. Satoh

 

Study of neutron detection efficiencies for liquid organic scintillator up to 3 GeV

 

IEEE Trans. Nucl. Sci., 48 (4), 1165 - 1167, 2001

 

 

T445/T455 S. Mihara

ƒÊ¨‚…ƒÁ•ö‰ó’TõŽÀŒ±‚Ì‚½‚߂̃^ƒCƒ~ƒ“ƒOƒJƒEƒ“ƒ^[‚ÌŠJ”­

ƒÊ¨‚…ƒÁ•ö‰ó’TõŽÀŒ±‚Ì‚½‚߂̃^ƒCƒ~ƒ“ƒOƒJƒEƒ“ƒ^[‚ÌŠJ”­i2j

 

S. Mihara

 

Search for mu^+ -> e^+ gamma down to 10^-14 branching ratio

 

Research Proposal to Paul Scherrer Insitute,(1999)

S. Mihara et al.

 

Development of a liquid-xenon photon detector - towards the search for a muon rare decay mode at Paul Scherrer Institute

 

Cryogenics, 44:223-226, 2004

A. Baldini et al.

 

Absorption of scintillation light in a 100 l liquid xenon gamma ray detector and expected detector performance.

 

Nucl.Instrum.Meth.A545:753-764,2005.

S. Mihara et al.

 

R&D work on a liquid-xenon photon detector for MEG experiment at PSI.

 

Nucl.Instrum.Meth.A518:45-48,2004.

T. Doke et al.

 

Development of a liquid xenon scintillation detector for a new experiment to search for mu --> e gamma decays.

 

Nucl.Instrum.Meth.A505:199-202,2003.

T. Doke et al.

 

R & D work on a liquid xenon photon detector for the mu --> e gamma experiment at PSI.

 

Nucl.Instrum.Meth.A503:290-294,2003.

 

 

T450/ T478 Y. Unno

‚`‚s‚k‚`‚rŒŸoŠí‚ÅŽg—p‚³‚ê‚éƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

ATLASŒŸoŠí‚ÅŽg—p‚³‚ê‚éƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

T456 Y. Ikegami

‚`‚s‚k‚`‚rŒŸoŠí‚ÅŽg—p‚³‚ê‚éƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠíiForward•”j‚̃r[ƒ€ƒeƒXƒg

 

Y. Unno et al.

 

Beamtest of Non-irradiated and Irradiated ATLAS SCT Silicon Microstrip Modules at KEK

 

IEEE Trans. Nucl. Scie. Vol. 49 (2002) 1868 - 1875

 

 

T458/T497 T. Inagaki

V‚jƒÓƒ‰ƒCƒ“‚̃r[ƒ€ƒT[ƒxƒC—pƒJƒEƒ“ƒ^[‚ÌŠr³

E391aƒr[ƒ€ƒT[ƒxƒC‚Ì‚½‚ß‚Ì‘ª’èŠí‚ÌŠr³

 

H. Watanabe et al.

 

Neutral beam line to study K(L)0 ---> pi0 nu anti-nu decay at the KEK 12-GeV proton synchrotron.

 

Nucl.Instrum.Meth.A545:542-553,2005.

 

 

T469/T486 O. Nitoh

ƒ~ƒjƒWƒFƒbƒgƒZƒ‹Œ^ƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‚̃Gƒlƒ‹ƒM[•ª‰ð”\‘ª’è

ƒr[ƒ€‹­“x‚É‚æ‚éƒWƒFƒbƒgŒ^ƒ`ƒFƒ“ƒo[’†‚Ì‹óŠÔ“d‰×Œø‰Ê

 

H. Kuroiwa et al.

 

The influence of oxygen contamination on the performance of a mini-jet-cell-type drift chamber for the JLC-CDC.

 

Nucl.Instrum.Meth.A516:377-389,2004.

K. Hoshina et al.

 

Lorentz angle measurement for CO(2) / isobutane gas mixtures.

 

Nucl.Instrum.Meth.A479:278-293,2002.

 

 

T474 Masaaki Kobayashi

K+‹H•ö‰óŽÀŒ±—p‚ÌGSO:CeƒVƒ“ƒ`ƒŒ[ƒ^[‚ÆPWOƒ`ƒFƒŒƒ“ƒRƒt‚̃eƒXƒg

 

Y. Tamagawa et al.

 

Performance of connected GSO bars

 

Nucl. Instrum. Meth. A562:120-126,2006.

M. Kobayashi et al.

 

A beam test of PbWO4 Cherenkov radiators

 

Nucl. Instrum. Meth. A484:140-148,2002.

 

 

T475 T. Iwata

ƒKƒXƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚̐«”\•]‰¿

 

I. Daito et al.

 

A gamma-ray detector with lead-scintillator tiles and WLS fiber readout for the experiment at SPring-8 to study the GDH sum rule.

 

Nucl.Instrum.Meth.A481:188-199,2002.

 

 

T476 T. Kobayashi

ƒtƒ@ƒCƒo[“ǂݏo‚µ‰t‘̃Vƒ“ƒ`ƒŒ[ƒ^ŒŸoŠí‚ÌŠJ”­

T491/T503 T. Nakaya

‚j‚Q‚jŽÀŒ±ƒAƒbƒvƒOƒŒ[ƒhŒŸoŠíFƒVƒ“ƒ`ƒŒ[ƒ^[Eƒgƒ‰ƒbƒJ[‚ÌŠî‘b“Á«‚Ì‘ª’è

K2KŽÀŒ±A‘SŠ´’mŒ^ƒVƒ“ƒ`ƒŒ[ƒ^”òÕŒŸoŠí‚ÌŠî‘b«”\‘ª’è

 

K. Nitta et al.

 

The K2K SciBar detecto

 

Nucl.Inst.Meth. A535 (2004) 147-151.

 

 

T477 K. Yoshimura

‹C‹…“‹ÚŒ^ƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‚̐«”\•]‰¿

T502 M. Nozaki

BESS-Polar—pVTOFƒJƒEƒ“ƒ^[‹y‚ÑBESS-TeV—pOuter Drift Chamber ‚̐«”\•]‰¿

T540/T587 T. Yoshida

BESS-Polar“‹Ú—p‚ÌTOF,Middle TOF,Aerogel CherenkovƒJƒEƒ“ƒ^[ŽÀ‹@‚̐«”\•]‰¿

BESS-PolarŽÀŒ±—pTOFƒJƒEƒ“ƒ^AƒGƒAƒƒWƒFƒ‹ƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^‚̐«”\•]‰¿

 

S. Haino et al.

 

Progress of the BESS superconducting spectrometer.

 

Nucl.Instrum.Meth.A518:167-171,2004.

M. Nozaki

 

BESS-Polar.

 

Nucl.Instrum.Meth.B214:110-115,2004.

 

 

T481 Masaaki Kobayashi

(ƒÎ{ƒÎ-)Œ´ŽqŽõ–½‘ª’èŽÀŒ±—p‚ÌSiƒ}ƒCƒNƒƒXƒgƒŠƒbƒvŒŸoŠí‚̃eƒXƒg

 

M. Kobayashi et al.

 

Silicon strip detector as a real-time, fast, medium-segmented hodoscope

 

Nucl. Instrum. Meth. A487:353-364,2002.

 

 

T490 Masaaki Kobayashi

‚j{‹H•ö‰óŽÀŒ±—p‚Ì‘åŒ^ƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚̃eƒXƒg

 

ŠÖŒû“N˜Y

 

‚j’†ŠÔŽq‹H•ö‰óŽÀŒ±‚É—p‚¢‚é—±ŽqŽ¯•Ê—pƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚ÌŠJ”­

 

CŽm˜_•¶A“Œ‹ž‘åŠw‘åŠw‰@i‚Q‚O‚O‚Q”N‚PŒŽj

 

 

T494/T500/T530 T. Nakamura

Jlab@E01-011@ŽÀŒ±—pŠeŽíƒ`ƒFƒŒƒ“ƒRƒtŒŸoŠí‚̃eƒXƒg

Jlab@E01-011@ŽÀŒ±—pŠeŽíƒ`ƒFƒŒƒ“ƒRƒtŒŸoŠí‚̃eƒXƒg‚Q

Jlab E01-011ŽÀŒ±—pŠeŽíŒŸoŠí‚̃eƒXƒg

 

M. Carl et al.

 

Beam test of a dual radiator Cherenkov detector with aerogel and wavelength-shifting acrylic plastic.

 

2004. 7pp.

K.Maeda et al.

 

A New Hypernuclear Experiment with the High Resolution Kaon

 

S.N.Nakamura for JLab E01-011 Collaboration Electrophotoproduction of Strangeness on Nucleons and Nuclei World Scientific, Singapore, (2004) 273-282,

S.N.Nakamura et al.

 

Future hypernuclear program at JLab Hall C,

 

Nucl. Phys.A754(2005) 421-429.

 

 

T495 T. Iijima

ƒGƒAƒƒWƒFƒ‹‚q‚h‚b‚gŒŸoŠí‚̃eƒXƒg

 

I. Adachi et al.

 

Tests of a proximity focusing RICH with aerogel as radiator.

 

Nucl.Instrum.Meth.A502:231-235,2003, IEEE Trans.Nucl.Sci.50:1142-1146,2003.

 

 

T504/T505/T512/T523 K. Hoshino

ECCŒŸoŠí‚ð—p‚¢‚½dE/dx‚Ì‘ª’è‚É‚æ‚éƒÎ/ƒÊ“¯’è‚ÌŒ¤‹†

ƒÎŒ´ŽqŠj”½‰ž‚É‚æ‚éŠj”j•Ð¶¬‚ÌŒ¤‹†

ECCŒŸoŠí‚ð—p‚¢‚½dE/dx‚Ì‘ª’è‚É‚æ‚éƒÎ/ƒÊ“¯’è‚ÌŒ¤‹†

ECCŒŸoŠí‚ð—p‚¢‚½dE/dx‚Ì‘ª’è‚É‚æ‚éƒÎ/ƒÊ“¯’è‚ÌŒ¤‹†@

 

T. Toshito

 

pi / p separation at 1.2-GeV/c by an emulsion cloud chamber.

 

Nucl.Instrum.Meth.A516:436-439,2004.

 

 

T506 M. Aoki

ƒV[ƒ€ƒŒƒXƒXƒgƒ[ƒ`ƒ…[ƒu‚ð—p‚¢‚½”òÕŒŸoŠí‚̃eƒXƒg

 

Y. Takubo et al.

 

Development and performance of resistive seamless straw-tube gas chambers.

 

Nucl.Instrum.Meth.A551:271-284,2005.

 

 

T507 H. Shimizu

ƒrƒXƒ}ƒXƒVƒŠƒPƒCƒgiBi4Si3O12j’PŒ‹»‚ð—p‚¢‚½“dŽ¥ƒJƒƒŠƒ[ƒ^[‚̐«”\ƒeƒXƒg

 

H. Shimizu et al.

 

First beam test on a BSO electromagnetic calorimeter.

 

Nucl.Instrum.Meth.A550:258-266,2005.

 

 

T510 H. Okuno

E391aŽÀŒ±‚ÉŽg—p‚·‚é‚b‚“‚hƒJƒƒŠƒ[ƒ^‚ÌŠr³

T516/T552 T. Inagaki

Beam calibration of a collar counter , CC03

Test of downstream calorimeters for the KEK-E391a experiment.

 

M. Doroshenko et al.

 

Undoped-CsI calorimeter for the K(L)0 ---> pi0 nu anti-nu experiment at KEK-PS.

 

Nucl.Instrum.Meth.A545:278-295,2005.

 

 

T517/T545 Y. Fujii

Beam test of fine-granularity JLC EM calorimeter test modules

Beam test of fine-granularity JLC EM calorimeter test modules

 

A. Nagano et al.

 

Fine-granularity electromagnetic calorimeter using plastic scintillator strip-array.

 

Nucl.Instrum.Meth.A557:460-478,2006.

A.L.C. Sanchez et al.

 

Beam test of a prototype fine-granularity scintillator tile EM calorimeter.

 

Nucl.Instrum.Meth.A546:535-543,2005.

 

 

T524 K. Yoshimura

ƒpƒCƒIƒ“•ßŠl—p’´“`“±ƒ\ƒŒƒmƒCƒh‚Ì•úŽËü‚É‚æ‚é”M•‰‰×‚ÌŽÀŒ±“IŒŸØ

 

H. Ohnishi et al.

 

Measurement of radiation heating induced by secondary particles from 12-GeV primary proton beam interactions.

 

Nucl.Instrum.Meth.A545:88-96,2005.

 

 

T525 T. Iijima

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pŽŸ¢‘ã—±ŽqŽ¯•Ê‘•’u‚̃r[ƒ€ƒeƒXƒg

 

I. Adachi et al.

 

Study of highly transparent silica aerogel as a RICH radiator.

 

Nucl.Instrum.Meth.A553:146-151,2005.

R. Pestotnik et al.

 

Proximity focusing RICH with flat panel PMT (Hamamatsu H8500) as photon detector and aerogel radiator.

 

Nucl.Instrum.Meth.A525:158-162,2004, Nucl.Instrum.Meth.A553:58-63,2005.

T. Matsumoto et al.

 

Neutral B flavor tagging for the measurement of mixing induced CP violation at Belle.

 

Nucl.Instrum.Meth.A518:582-585,2004.

T. Matsumoto et al.

 

Studies of proximity focusing RICH with an aerogel radiator using flat panel multianode PMTs (Hamamatsu H8500).

 

Nucl.Instrum.Meth.A521:367-377,2004.

P.Krizan et al.

 

Proximity focusing RICH with flat panel PMT as photon detector and aerogel as radiator

 

Nucl. Instr. and Meth. A 553, 58-63 (2005)

 

 

T527 N. Shigyo

ƒzƒXƒEƒBƒbƒ`Œ^”½’µ—zŽqŒŸoŠí‚̃eƒXƒg

 

T. Watanabe

 

Measurement of Inclusive (n,xn) Double Differential Cross Sections

 

J. Nucl. Sci. Tech., Suppl. 4, pp. 34 - 37, 2004.

 

 

T532/T547/T565/T576 T. Oshima

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pŽŸ¢‘ã—±ŽqŽ¯•Ê‘•’u‚̃r[ƒ€ƒeƒXƒg

‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pŽŸ¢‘ã—±ŽqŽ¯•Ê‘•’u‚̃r[ƒ€ƒeƒXƒg

Bƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pŽŸ¢‘ã—±ŽqŽ¯•Ê‘•’u‚̃r[ƒ€ƒeƒXƒg

10psec Time of Flight Counter ‚̃r[ƒ€ƒeƒXƒg

 

K. Inami et al.

 

A 5-ps TOF-counter with an MCP-PMT.

 

Nucl.Instrum.Meth.A560:303-308,2006.

Y. Enari et al.

 

Cross-talk of a multi-anode PMT and attainment of a a sigma approx. 10-ps TOF counter.

 

Nucl.Instrum.Meth.A547:490-503,2005.

M. Akatsu et al.

 

MCP-PMT timing property for single photons.

 

Nucl.Instrum.Meth.A528:763-775,2004.

 

 

T533@T. Nagae

”÷×‰ÁH‹Zp‚ð‚ð—p‚¢‚½”òÕŒŸoŠí‚¨‚æ‚ѓǂݏo‚µ‰ñ˜HŒn‚̃r[ƒ€ŽŽŒ±

 

A. Ochi et al.

 

Development of Micro Pixel Chamber.

 

Nucl.Instrum.Meth.A478:196-199,2002.

A. Ochi et al.

 

A new design of the gaseous imaging detector: Micro Pixel Chamber.

 

Nucl.Instrum.Meth.A471:264-267,2000.

Toru Tanimori et al.

 

Development of imaging microstrip gas chamber with 5-cm x 5-cm area based on multichip module technology.

 

Nucl.Instrum.Meth.A381:280-288,1996.

T. Nagae et al.

 

Development of microstrip gas chambers with multichip technology.

 

Nucl.Instrum.Meth.A323:236-239,1992.

 

 

T534 J. Tojo

RHIC-PHENIXŒŸoŠíƒAƒbƒvƒOƒŒ[ƒh‚Ì‚½‚߂̃VƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚ÌŠJ”­

 

Z. Li et al.

 

Electron beam and laser testing on the novel stripixel detectors.

 

Nucl.Instrum.Meth.A541:21-28,2005.

Z. Li et al.

 

Development of 2nd prototype of novel silicon Stripixel detector for PHENIX upgrade.

 

Nucl.Instrum.Meth.A535:404-409,2004.

Z. Li et al.

 

Novel silicon stripixel detector for PHENIX upgrade.

 

Nucl.Instrum.Meth.A518:300-304,2004.

 

 

T535/T536 C. Hailey

Antiproton Beam Testing of the Gaseous Antiparticle Spectrometer

The Antiproton Beam Testing of an Antiparticle Spectrometer with Aerogel Target

 

C. Hailey et al.

 

Accelerator testing of the general antiparticle spectrometer; a novel approach to indirect dark matter detection.

 

Journal of Cosmology and Astroparticle Physics, Issue 01, pp. 007 (2006)

J. E. Koglin et al.

 

Indirect Dark Matter Search with Antideuterons: Progress and Future Prospects for General Antiparticle Spectrometer (GAPS)

 

Nuclear Physics B Proceedings Supplements, Volume 173, p. 75-78 (2007)

 

 

T543/T581 K. Kodama

OPERAŽÀŒ±—pECCƒuƒŠƒbƒN‚É‚æ‚éƒnƒhƒƒ“”½‰ž‰ðÍ‚̃Šƒn[ƒTƒ‹ŽÀŒ±

OPERAŽÀŒ±—pƒGƒ}ƒ‹ƒVƒ‡ƒ“ƒV[ƒg‚̐«”\•]‰¿

 

K. Kodama et al.

 

Momentum measurement of secondary particle by multiple Coulomb scattering with emulsion cloud chamber in DONuT experiment.

 

Nucl.Instrum.Meth.A574:192-198,2007.

 

 

T544 Y. B. Chen

Beijing Spectrometer(BES?)Main Drift Chamber(MDC4)Prototype Beam Test

 

C. Chen et al.

 

Electromagnetic calorimeter with thin gap wire chambers.

 

Nucl.Instrum.Meth.A351:330-335,1994.

 

 

T550/T562/T579 Ichiro Adachi

‚ƒ‹ƒ~ƒmƒVƒeƒB[‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pƒGƒAƒƒWƒFƒ‹RICHŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

‚ƒ‹ƒ~ƒmƒVƒeƒB[‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pƒGƒAƒƒWƒFƒ‹RICHŒŸoŠí‚̃r[ƒ€ƒeƒXƒg

‚ƒ‹ƒ~ƒmƒVƒeƒB[‚aƒtƒ@ƒNƒgƒŠ[ŽÀŒ±—pƒGƒAƒƒWƒFƒ‹RICHŒŸoŠí‚̃r[ƒ€ƒeƒXƒg(2)

 

Krizan et al.

 

Tests of the Burle 85011 64-anode MCP PMT as a detector of Cherenkov photons.

 

Nucl.Instrum.Meth.A567:124-128,2006.

I. Adachi et al.

 

Study of highly transparent silica aerogel as a RICH radiator.

 

Nucl.Instrum.Meth.A553:146-151,2005.

S. Korpar et al.

 

RICH with multiple aerogel layers of different refractive index.

 

Nucl.Instrum.Meth.A553:64-69,2005.

T. Iijima et al.

 

A Novel type of proximity focusing RICH counter with multiple refractive index aerogel radiator.

 

Nucl.Instrum.Meth.A548:383-390,2005.

R. Pestotnik et al.

 

Proximity focusing RICH with flat panel PMT (Hamamatsu H8500) as photon detector and aerogel radiator.

 

Nucl.Instrum.Meth.A525:158-162,2004, Nucl.Instrum.Meth.A553:58-63,2005.

T. Matsumoto et al.

 

Studies of a proximity focusing RICH with aerogel radiator.

 

Nucl.Instrum.Meth.A518:582-585,2004.

T. Matsumoto et al.

 

Studies of proximity focusing RICH with an aerogel radiator using flat panel multianode PMTs (Hamamatsu H8500).

 

Nucl.Instrum.Meth.A521:367-377,2004.

 

 

T551 M. Yokoyama

K2KŽÀŒ±—p‘SŠ´’mŒ^ƒVƒ“ƒ`ƒŒ[ƒ^”òÕŒŸoŠí‚ÌŠî‘b«”\‘ª’è

 

› K. Nitta et al.

 

The K2K SciBar detector.

 

Nucl.Instrum.Meth.A535:147-151,2004.

 

 

T557 K. Tokusyuku

ƒfƒWƒ^ƒ‹ƒtƒBƒ‹ƒ^[‚ð—p‚¢‚½ƒKƒXƒ`ƒFƒ“ƒo[‚̐M†ˆ—Œ¤‹†‚Ì‚½‚߂̃r[ƒ€ƒeƒXƒg

 

–x@—´”n

 

ƒfƒBƒWƒ^ƒ‹”gŒ`ˆ—‚É‚æ‚éƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‚̈ʒu¸“xŒüã‚ÌŒ¤‹†

 

“Œ‹ž‘åŠw@•½¬17”N3ŒŽ

 

 

T558/T572/T573 O. Nitoh

MPGD“ǂݏo‚µTPC‚ÌŽ¥ê’†‚ł̃r[ƒ€ƒeƒXƒg

MicroMEGAS “ǂݏo‚µTPC‚ÌŽ¥ê’†‚ł̃r[ƒ€ƒeƒXƒg

GEM“ǂݏo‚µTPC‚ÌŽ¥ê’†‚ł̃r[ƒ€ƒeƒXƒg

 

M.Kobayashi

 

Performance of MPGD-based TPC prototypes for the linear collier experiment

 

Nucl.Instrum.Meth. A 581 265-270 (2007)

 

 

T574 S. Sawada

E559ŽÀŒ±—pƒŒƒ“ƒWƒJƒEƒ“ƒ^[‚̃eƒXƒg

 

‘“c®Žj@

 

Study of high resolution detectors system for penta-quark

Theta+ search

 

‹ž“s‘åŠwCŽmŽæ“¾i•½¬17”N3ŒŽj

 

 

T583 M. Yokoyama

T2KŽÀŒ±‘O’uŒŸoŠí—pŒõŒŸoŠí‚ÌŠî‘b«”\‘ª’è

 

› Mineev et al.

 

Scintillator counters with multi-pixel avalanche photodiode readout for the ND280 detector of the T2K experiment.

 

Nucl.Instrum.Meth.A577:540-551,2007.

 

 

T584 S. Sugimoto

—±ŽqŽ¯•Ê—p‘åŒ^ƒVƒŠƒRƒ“ƒXƒgƒŠƒbƒvŒŸoŠí‚Æ‘åŒ^GSOƒVƒ“ƒ`ƒŒ-ƒ^‚̐«”\•]‰¿

 

S. Sugimoto et al.

 

Uniformity in large-size GSO:Ce single crystals

 

Proceedings SCINT2005 (International conference on inorganic scintillators and their industrial apprication) September 19-23 Crimea, Ukraine, (2006)254-256

 

 

T589 T. Iijima

TOFî•ñ‚ðŽ‚ÂƒGƒAƒƒWƒFƒ‹RICH‚̃r[ƒ€ƒeƒXƒg

 

P. Krizan et al.

 

Tests of the Burle 85011 64-anode MCP PMT as a detector of Cherenkov photons.

 

Nucl.Instrum.Meth.A567:124-128,2006.

P. Krizan et al.

 

Study of a nonhomogeneous aerogel radiator in a proximity focusing RICH detector.

 

Nucl.Instrum.Meth.A565:457-462,2006.

S. Korpar et al.

 

RICH with multiple aerogel layers of different refractive index.

 

Nucl.Instrum.Meth.A553:64-69,2005.

T. Iijima et al.

 

A Novel type of proximity focusing RICH counter with multiple refractive index aerogel radiator.

 

Nucl.Instrum.Meth.A548:383-390,2005.

S.Korpar et al.

 

Proximity focusing RICH with TOF capabilities

 

Nucl. Instr. and Meth. A 572, 432-433 (2007)

 

 

T590 S. Sawada

Œ‹»‚ð—p‚¢‚½12GeV—zŽq‚Ì•ÎŒü–@‚ÌŠJ”­

 

S. Strokov@et al.

 

Electron beam deflection with channeling in a silicon crystal at the REFER electron ring.

 

Nucl.Instrum.Meth.B252:16-19,2006.

S. Strokov

 

Steering Beam of Charged Particles using Silicon Crystals

 

Journal of the Physical Society of Japan Vol. 76 No. 6, June, 2007, 064007 (10 pages)

”яÀ¹—²

 

Œ‹»‚É‚æ‚é—±Žqƒr[ƒ€‚Ì‘€ì

 

u‰Á‘¬ŠívVol. 3 No. 4, 2006, 354-363

S. Strokov

 

Deflection of charged particles by crystals

 

L“‡‘åŠw‘åŠw‰@æ’[•¨Ž¿‰ÈŠwŒ¤‹†‰È”ŽŽm˜_•¶i2007”N3ŒŽj

ã“cŒh‘¾˜Y

 

Deflection of charged particles by Si crystals

 

L“‡‘åŠwCŽmi—Šwj‚Q‚O‚O‚U”N3ŒŽ

 

 

 

 

**********************************************************************

 

 

 

T101 T. Sato

ƒgƒŠƒXƒ^ƒ“‚…{‚…-Õ“ËŽÀŒ±—p‘ª’èŠíƒeƒXƒgŽÀŒ±

TRISTAN TOPAZ ŽÀŒ±‚Ì‘ª’èŠí‚ÌŠJ”­AŠr³‹y‚уeƒXƒg‚ðs‚È‚Á‚½

 

 

T180 Masaaki Kobayashi

‚`‚qŽÀŒ±—p‚s‚n‚e@Counter TestiƒeƒXƒgŽÀŒ±j

ŠY“–‚È‚µ@

 

 

T184 H. Ejiri

ƒeƒXƒgŽÀŒ±F•Î‹ÉƒnƒCƒp[Šj¶¬ŽÀŒ±‚Ì‚½‚ß‚Ì—\”õƒeƒXƒg

E160ŠÖ˜AƒeƒXƒg

 

T194 S. Terada

ƒeƒXƒgŽÀŒ±F‚`‚l‚xVƒGƒ“ƒhƒLƒƒƒbƒv‘ª’èŠí‚̃eƒXƒg

ŠY“–‚È‚µ@

 

 

T223 M. Minowa

ƒÎ‚O¨Invisible Decay Branching Ratio ‘ª’è‚ׂ̈̃eƒXƒgŽÀŒ±

ŠY“–‚È‚µ

 

 

T245/T331 H. Enyo

ƒgƒŠƒGƒ`ƒŒƒ‹ƒAƒ~ƒ“ƒKƒX‚ð”­Œõ”}‘Ì‚Æ‚·‚éƒCƒ[ƒWƒ“ƒOEƒ`ƒFƒ“ƒo[‚ÌŽŽŒ±

ƒKƒXƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[AƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[ŽŽì•i‚̃r[ƒ€ƒeƒXƒg

E325ŠÖ˜AƒeƒXƒg

 

 

T264/T303/T376 K. Nakazawa

Œ´ŽqŠjŠ£”Â-ƒVƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“ƒtƒ@ƒCƒo[ƒnƒCƒuƒŠƒbƒh–@‚̃eƒXƒg

‚j‚Qƒ‰ƒCƒ“‚ł́AƒGƒ}ƒ‹ƒVƒ‡ƒ“-‚r‚b‚h‚e‚hƒnƒCƒuƒŠƒbƒh–@‚̃eƒXƒg

‚j‚Uƒr[ƒ€ƒ‰ƒCƒ“‚Ì‚j^ƒÎ”äi‰^“®—ʁF1.7GeV/cj‚Ì‘ª’è

E373ŠÖ˜AƒeƒXƒg

 

 

T294/T295/T306 Y. Kuno

ƒEƒF[ƒuƒVƒtƒ^[ƒo[‚ðŽg‚Á‚½Œ‹»ƒVƒ“ƒ`ƒŒ[ƒ^[pure CsI‚̓ǂݏo‚µ

‚j‚d‚j-‚o‚r^‚d‚Q‚S‚UŽÀŒ±—p‚b‚Qƒ`ƒFƒ“ƒo[‚̃r[ƒ€ƒeƒXƒg

‚j‚d‚j@‚o‚r^‚d‚Q‚S‚UŽÀŒ±‚Ì‚½‚ß‚Ì‚s‚n‚eƒJƒEƒ“ƒ^[‚̃eƒXƒg

ŠY“–‚È‚µ

 

 

T338/T371//T586 T. Inagaki

‚j‚k¨ƒÎ‚OƒËƒË•ªŠò”äŽÀŒ±‚Ì‚½‚߂̏€”õŒ¤‹†

‹H•ö‰ó‚j‚k¨ƒÎ‚OƒËƒË‘ª’èŽÀŒ±‚Ì‚½‚߂̏€”õŒ¤‹†

‚j‚k¨ƒÎ‚OƒËƒËŽÀŒ±—pPhoton VetoŒŸoŠíBack Anti‚̐«”\•]‰¿

E391aŠÖ˜AƒeƒXƒg

 

 

T364 Masaaki Kobayashi

ƒoƒ‹[ƒ“ŽÀŒ±“‹Ú—pƒVƒ“ƒ`ƒtƒ@ƒCƒo[ŒŸoŠí‚̃eƒXƒg

ŠY“–‚È‚µ

 

 

T377 H. Tamura

ƒQƒ‹ƒ}ƒjƒEƒ€ŒŸoŠí‚ð—p‚¢‚½ƒnƒCƒp[ŠjƒKƒ“ƒ}ü•ªŒõ‚Ì‚½‚߂̃r[ƒ€ƒeƒXƒg

E419ŠÖ˜AƒeƒXƒg

 

 

T381 J. Shirai

‘S”½ŽËŒ^ƒ‹[ƒTƒCƒgƒ`ƒFƒŒƒ“ƒRƒtƒJƒEƒ“ƒ^[‚̃eƒXƒg

E304ŠÖ˜AƒeƒXƒg

 

 

T421 H. Kurashige

‹H•ö‰óƒ‚[ƒh‚j‚k¨ƒÎ‚OƒËƒË‚Ì’TõŽÀŒ±‚Ì‚½‚߂̃ÁüŒŸoŠí‚ÌŠJ”­

ŠY“–‚È‚µ

 

 

T424 T. Tsuru

Test of PWO array for COMPASS experiment

ŠY“–‚È‚µ@

 

 

T428/T457/T464/T468/T465/T498/T511 K.Nakai

ƒoƒ‹ƒNƒVƒ“ƒ`ƒŒ[ƒ^[‚É‚æ‚é—±Žq”òÕŠÏ‘ª–@ŠJ”­‚Ì‚½‚߂̃eƒXƒgŽÀŒ±

ƒoƒ‹ƒNƒVƒ“ƒ`ƒŒ[ƒ^[”òÕŒŸoŠí‚̃eƒXƒg

ƒVƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“”òÕŒŸoŠí‚̃eƒXƒg

ƒoƒ‹ƒNƒVƒ“ƒ`ƒŒ[ƒ^[”òÕŒŸoŠí‚̃eƒXƒg

‚d452ƒnƒCƒyƒƒ“ŠjŽqŽU—ŽÀŒ±‚Ì‚½‚߂̐VSCITICƒeƒXƒgŽÀŒ±

E452ƒnƒCƒyƒƒ“ŠjŽqŽU—ŽÀŒ±‚Ì‚½‚߂̐VSCITICƒeƒXƒgŽÀŒ±‚»‚Ì‚Q

CsI(Tl)‚ð—p‚¢‚½3D-SCITIC(Scintillating Track Image Camera)‚̃eƒXƒg

E452ŠÖ˜AƒeƒXƒg

 

 

T465/T480/T499/T529 A. Shinohara

ƒpƒC’†ŠÔŽq•ßŠl‚É”º‚¤Auger“dŽq‘ª’è‚Ì‚½‚߂̃eƒXƒgŽÀŒ±

ƒpƒC’†ŠÔŽq•ßŠl‚É”º‚¤“dŽqƒGƒbƒNƒXü‹y‚ÑAuger“dŽq‘ª’è‚Ì‚½‚߂̃eƒXƒgŽÀŒ±

ƒpƒCƒIƒjƒbƒN‚wü‚Æ“dŽq‚wü‚Ì‘ŠŠÖ‘ª’è‘•’uÝŒv‚Ì‚½‚߂̃eƒXƒgŽÀŒ±

•‰ƒpƒC’†ŠÔŽq•ßŠlŒã‚Ì•ªŽqEŒ´Žqó‘Ô‚ÌŒ¤‹†‚½‚ß‚Ì“dŽq‚wü‘ŠŠÖ‘ª’è‚̃eƒXƒg

E546,E567ŠÖ˜AƒeƒXƒg

 

 

T472 M. Iwasaki

Test of differential Cerenkov counter for ā-andą-mesic nuclei search

ŠY“–‚È‚µ@

 

 

T487 H. Shibuya

ƒjƒ…[ƒgƒŠƒmƒtƒ‰ƒbƒNƒX‘ª’è—pƒRƒ“ƒpƒNƒg‚d‚b‚b‹Zp‚ÌŠJ”­

ŠY“–‚È‚µ@

 

 

T488 T. Hara

‚j‚Q‚jŽÀŒ±‚Ì‚½‚߂̃tƒ@ƒCƒo[“Ç‚Ý‚¾‚µŽU—‘Ì“ü‚èƒVƒ“ƒ`ƒŒ[ƒ^[”òÕŒŸoŠí‚ÌŠJ”­

ŠY“–‚È‚µ

 

 

T501 M. Sakuda

ƒjƒ…[ƒgƒŠƒmƒGƒlƒ‹ƒM[Šr³‚Ì‚½‚߂̃r[ƒ€ŽÀŒ±

E362(K2K) ŠÖ˜AƒeƒXƒg

 

 

T515/T539 A. Sakaguchi

“ñŽŸƒr[ƒ€ƒ‰ƒCƒ“‚É‚¨‚¯‚éƒr[ƒ€ƒ‚ƒjƒ^ƒŠƒ“ƒO‹Zp‚ÌŠJ”­

“ñŽŸƒr[ƒ€ƒ‰ƒCƒ“‚É‚¨‚¯‚éƒr[ƒ€ƒ‚ƒjƒ^ƒŠƒ“ƒO‹Zp‚ÌŠJ”­

ŠY“–‚È‚µ

 

 

T526/T542 A. Sato

VLPC‚ÆMAPMT“ǂݏo‚µ‚ð—p‚¢‚½ƒVƒ“ƒ`ƒŒ[ƒeƒBƒ“ƒOEƒtƒ@ƒCƒo[—±ŽqˆÊ’uŒŸoŠí‚̃eƒXƒg

VLPC‚ÆMAPMT“ǂݏo‚µ‚ð—p‚¢‚½ƒVƒ“ƒ`ƒŒ[ƒeƒBƒ“ƒOEƒtƒ@ƒCƒo[—±ŽqˆÊ’uŒŸoŠí‚̃eƒXƒg

ŠY“–‚È‚µ

 

 

T536 H. Tamura

ŽŸ¢‘ãŒ^ƒnƒCƒp[ŠjƒÁü•ªŒõ—pƒQƒ‹ƒ}ƒjƒEƒ€ŒŸoŠíƒVƒXƒeƒ€‚ÌŠJ”­

E518ŠÖ˜AƒeƒXƒg

 

 

T553/T577/585 M. Yoshida

”òÕŒŸoŠí—p‹É×ƒVƒ“ƒ`ƒŒ[ƒeƒBƒ“ƒOEƒtƒ@ƒCƒo[‚ÌŠî–{«”\•]‰¿‚Ì‚½‚߂̃eƒXƒg

‚•ª‰ð”\TOFƒJƒEƒ“ƒ^[‹y‚у~ƒ…[EƒpƒCŽ¯•Ê—pƒGƒAƒƒWƒFƒ‹ŒŸoŠí‚̐«”\ƒeƒXƒg

MICEŽÀŒ±—pƒVƒ“ƒ`ƒtƒ@ƒCƒo[”òÕŒŸoŠí‚̐«”\ƒeƒXƒg

ŠY“–‚È‚µ

 

 

T555 K. Ozawa

PHENIX ŽÀŒ± Upgrade ‚ÉŒü‚¯‚½ TPCAHBD

ŠY“–‚È‚µ@

 

 

T560 T. Kishimoto

Study of Kaon beam intensity at K2 beam line around 1 Gev/c reagion

E548ŠÖ˜AƒeƒXƒg

 

 

T566 S. Uno

Super-KEKB—pƒhƒŠƒtƒgƒ`ƒFƒ“ƒo[‚ÌŠJ”­

ŠY“–‚È‚µ

 

 

T575 M. Yokoyama

T2KŽÀŒ±ƒIƒ“ƒAƒNƒVƒXŒŸoŠíƒvƒƒgƒ^ƒCƒv‚ÌŠî‘b«”\‘ª’è

ŠY“–‚È‚µ@

 

 

T588 K. Nitta

ƒVƒ“ƒ`ƒŒ[ƒVƒ‡ƒ“ƒJƒEƒ“ƒ^[‚̃tƒ@ƒCƒo[“ǂݏo‚µ‚É‚æ‚éˆÊ’u‚¨‚æ‚ÑŽžŠÔ•ª‰ð”\‘ª’è

ŠY“–‚È‚µ@

 

 

T593 M. Yamaga

J-PARC ‚j‚k¨ƒÎ‚OƒËƒËŽÀŒ±—pcollimator‚ÌŠJ”­‚Ì‚½‚ß‚ÌŠî‘bŽÀŒ±

ŠY“–‚È‚µ