[Neutron] J-PARC Newsletter No.50 October 2012

[Nobuaki TAKAHASHI]

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     J-PARC Project Newsletter
                                             No. 50, October. 2012
Japan Proton Accelerator Research Complex under operation jointly
by the High Energy Accelerator Research Organization (KEK) and
the Japan Atomic Energy Agency (JAEA) 
http://j-parc.jp/index-e.html

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HEADLINES AND CONTENTS

1. [Overview]

YUJIRO IKEDA HAS SUCCEEDED PROF. SHOJI NAGAMIYA AS THE DIRECTOR OF 
J-PARC CENTER ON JULY 1, 2012.
USER OPERATION SCHEDULE FOR INCREASING USER BEAM TIME HAS BEEN 
CHANGED TILL THE END OF JULY, 2013.

2. [Accelerator Division]

MAINTENANCE AND UPGRADE WORK DURING SUMMER SHUTDOWN.

3. [Nuclear and Particle Physics Division]

KOTO: THE FIRST PARTICLE-PHYSICS EXPERIMENT OF THE HADRON HALL.
T2K STATUS: MAINTENANCE IN THE SUMMER SHUTDOWN PERIOD.

4. [Materials and Life Science Division]

HELIUM GAS INJECTION SYSTEM INSTALLED IN MERCURY TARGET. 
A LARGE INCREASE IN THE NUMBER OF PROPOSALS FOR 2012B PERIOD.
FRONT-END COMPONENTS FOR S-LINE AND H-LINE CONSTRUCTED.

5. [Nuclear Transmutation Section]

HIGH EXPECTATIONS FOR RADWASTE TRANSMUTATION.

6. [Safety Division]

APPLICATION FOR LICENSES TO OPERATE THE WHOLE FACILITIES WAS GRANTED 
BY THE MINISTRY OF EDUCATION, CULTURE, SPORTS, SCIENCE AND TECHNOLOGY
(MEXT).

7. [Information System Section] 

J-PARC NETWORK AND COMPUTING SYSTEM UPGRADE.

8. [Announcement of Symposia and Meetings]

9. [Editorial Note]


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1.  [Overview] by Yujiro IKEDA
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 YUJIRO IKEDA HAS SUCCEEDED PROF. SHOJI NAGAMIYA AS THE DIRECTOR OF
J-PARC CENTER ON JULY 1, 2012
 USER OPERATION SCHEDULE FOR INCREASING USER BEAM TIME HAS BEEN 
CHANGED TILL THE END OF JULY, 2013

     The new director of J-PARC center, Yujiro Ikeda who has 
succeeded Prof. Shoji Nagamiya, started operation on July 1, 2012 
with two new deputy directors: Takashi Kato for JAEA and Naohito 
Saito for KEK.
     We have experienced quite a challenging period under the slogan 
"full recovery from the damage of the earthquake". Stable and powerful 
beam operation of higher than 200 kW at the Materials and Life science 
experimental Facility (MLF), nearly 200 kW at the FX target and 14 kW 
beam extraction at the SX target for the Hadron experiment were 
achieved. Just before the summer shutdown, it was an exciting report 
that the beam power of 275 kW at MLF was demonstrated even for three 
days.
     During the summer shutdown time, all critical work for high power 
operation was completed for the helium bubble injection in the 
mercury target and installation of the front end beam line components 
for S- and H- ports at MLF. Also, the number of users has increased 
steadily with the recovery of stable operation. In the meantime, an 
encouraging result was reported that the appearance of electron 
neutrino candidate events was increased to 11 by the T2K team, 
corresponding to 3.2 sigma accuracy. Though it is an exciting 
achievement, a strong request to arrive at 5 sigma statistics urged 
the change of the operation schedule to increase user beam time. In 
view of the critical importance of the neutrino T2K experiment, 
beam-time will be increased around the coming year-end and new-year 
season and has been extended till the end of next July.
     After the government review of J-PARC, which was finalized at 
the end of last June, a summary report has been issued in July, 
2012. Although there were several critical comments on the J-PARC 
tasks to be done urgently, the review committee has endorsed for the 
most part of 5 years plans from now, which includes MW power 
achievement, the high-momentum beam-line at the Hadron experimental 
facility, extension of the Muon beam channels, completion of Neutron 
beam lines along with strengthening the sample environmental 
equipments, ADS (Accelerator-Driven System) experimental facility 
program revitalization, and a new building for users in the site, etc. 
Prioritization was required in any case.
     On July 29, the fourth open house of J-PARC facility took
place. A total of 2100 people visited J-PARC. Compared to the 
previous numbers, it was rather small due to the earthquake effect. 
However, the event was successful because we showed the recovery to 
the public in early stages.
     We are concerned about the electricity price hike by TEPCO due 
to the crippled Fukushima power plant that is pushing the fiscal 2012 
budget constraint harder, resulting in a slight reduction of money 
for the facility maintenance.
     The budget proposal for FY2013 is negotiated between the Ministry 
of Education, Culture, Sports, Science and Technology (MEXT) and the
Ministry of Finance. The current proposal comprised the user 
operation budget for 6 cycles (132 days), installation items needed 
for MW accelerator power, experimental beam-lines, a user building, 
ADS R&D and so on, according to the plan we have shown to the review 
meeting as the 5 year program.

 
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2. [Accelerator Division] by Kazuo HASEGAWA
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 MAINTENANCE AND UPGRADE WORK DURING SUMMER SHUTDOWN 
     
     Beam operation was suspended for the summer maintenance from July 
to September. In addition to the usual maintenance, installations, 
adjustments of some components for performance upgrade, and 
preparation work for linac energy upgrade were carried out.

 Linac
     
     One of the acceleration cavities, SDTL5#B, did not work properly 
within the designed radio frequency amplitude region after the 
earthquake restoration. We took several measures to recover 
performance such as improvement of effective vacuum speed, 
replacement of oil rotary pumps with oil-free ones, and warm water 
baking to accelerate degassing process. Development of Bunch Shape 
Monitor is carried out in collaboration with Institute of Nuclear 
Research in Russia. Three sets of monitors were installed in the 
tunnel and will be tested with the beam after resumption of operation in 
October. Restoration work from the earthquake disaster of the linac 
building was resumed from July. The repair work of the cranes in the 
klystron gallery and in the accelerator tunnel was completed. 
In addition, repair of walls and pillars, and pouring grout to the 
hollow spaces under the floor were intensively carried out before the 
resumption of beam operation.

 RCS

     In the 3 GeV Rapid Cycling Synchrotron (RCS), re-alignment of 
magnets is planned according to the linac energy upgrade of the summer
of 2013. As preparation for that, the spatial relationship between the
ceramic chambers and the electromagnets was measured by a laser 
tracker. The pulsed dipole magnet system was installed at the 
injection of the RCS. Although the same property beam is currently 
injected for the Material and Life experimental Facility (MLF) and 
for the Main Ring (MR) destinations, this system is to adjust the beam 
to reduce beam loss for each beam destination. The leakage magnetic
field from the electromagnet in the extracted beam transport line was 
about 10 Gauss and this causes the beam loss at the RCS. To reduce 
the magnetic field to the order of 1/10, the existing vacuum ducts 
and bellows were replaced with the products made from a magnetic 
material (permalloy).

 Main Ring (MR)

     The fast extracted beam power for long-time operation was 
restricted to 160 kW due to the radioactive level in the exhausted 
gas at the machine building. As a countermeasure, two air duct dampers 
were exchanged for high airtight ones during the summer shutdown. 
Modification of the ring collimator was carried out to raise the 
maximum allowable beam loss power from the present 450 W to 2 kW. 
Installation of three octupole electromagnets and the 9th unit of 
high frequency acceleration system, replacement of the end plate of 
septum magnet made from stainless steel with titanium, etc. were 
carried out for performance improvement. The MR aims at the design 
power by shortening the repetition cycle from the present 2.5 to 1 second. 
For that purpose, development of a high repetition rate and low ripple 
main electromagnet power supply, and high gradient acceleration 
system are indispensable. The power supply equipped with the 
capacitor bank for the energy storage is under development and the 
turning on test is being conducted. The mass-production test of high 
gradient magnetic alloy core was performed in September. 


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3.  [Nuclear and Particle Physics Division] 
by T.K.KOMATSUBARA & T. TSUKAMOTO
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 KOTO: THE FIRST PARTICLE-PHYSICS EXPERIMENT OF THE HADRON HALL 
(by T.K. KOMATSUBARA)

      KOTO is the experiment to investigate the new origin of the 
broken symmetry between particles and anti-particles (CP violation) 
by measuring the extremely-rare decay mode of the neutral K meson 
(kaon) with the high-intensity beam of J-PARC.
     KOTO aims at the discovery of the decay of a long-lived neutral 
kaon (KL) into a neutral pi meson and a pair of neutrinos; this decay 
is predicted in the Standard Model of particle physics to occur once 
every forty billion. "KOTO" is the abbreviated name for "K0 at TOkai",
and sixty-five experimental physicists from Japan, USA, Taiwan, Korea
and Russia participate in it.
     The KOTO collaborators built the new neutral beam line (KL beam
line) at the Hadron Hall and surveyed the beam in 2009. In 2010, they 
constructed a new electromagnetic calorimeter with the 50 cm-long 
undoped Cesium-Iodide (CsI) crystals that were used in the KTeV 
experiment at Fermilab. After the earthquake in March 2011, they 
spent time to check the calorimeter; as a result, it was found to be 
undamaged. They started the commissioning including the fast data 
readout and acquisition system. In this year, they continue 
construction of the detector and expect to start the full 
commissioning from December 2012. The new counter to identify charged 
particles in front of the calorimeter, called Charged Veto (CV), was 
made of thin plastic-scintillator strips. The 5 m-long extra photon 
counter surrounding the KL decay region, called Main Barrel (MB), was 
constructed during the summer. The new collar-shaped photon counter 
at the entrance of the decay region, called Neutron Collar Counter 
(NCC), is under construction at Kyoto University and will be moved to 
Tokai for installation in the autumn.

 T2K STATUS: MAINTENANCE IN THE SUMMER SHUTDOWN PERIOD 
(by T.TSUKAMOTO)

     Physics results based on accumulated data before the summer 
shutdown, were presented at the international conferences Neutrino 
2012 and ICHEP 2012 as reported in the previous issue.
    After neutrino beam operation was stopped on June 9, maintenance 
of the neutrino beam line and the T2K near detector ND280 was started 
to overcome problems so far and to have improvement for higher beam 
power as expected in near future.
    Troubles in the neutrino beam line that caused beam stoppage were 
a malfunction in horn cooling water system and a false alarm of quench 
detection in superconducting magnet system. The horn cooling water 
system was improved by having extra buffer tanks and remote control 
valves for efficient flushing without disturbing beam operation. The 
electronics circuit of the quench detection system was sent back to 
the Saclay group who made this system for detailed investigation.  It 
was repaired and is ready for operation.
     P0D (pi-zero detector) in ND280 (near detector 280) has water 
layers (25 layers in total) for neutrino target material and a water 
leak was found in one layer during the experiment. A leak was 
detected by the monitoring system and the water leak was caught by a
drain pan without problems. The repair was done by replacing it with 
new water layer.
     All components are becoming ready for the beam on the neutrino 
beam line scheduled from October 17.
     T2K collaboration meeting was held at IQBRC (Ibaraki Quantum 
Beam Research Center) in Tokai from September 24 to 29.

   
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4. [Materials and Life Science Division] by Masatoshi ARAI
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 HELIUM GAS INJECTION SYSTEM INSTALLED IN MERCURY TARGET 

 1) Neutron Source
     
     Concentration of para-hydrogen in the moderators was analyzed 
with Raman spectroscopy using samples that were collected from the 
cryogenic loop during the beam operation. It was confirmed for the 
first time that the para-hydrogen fraction is almost 100% as expected.
     Various maintenances had been carried out during the summer 
shutdown period; impellers of hydrogen pumps for the cryogenic loop 
were exchanged for spares. In the 3-GeV proton beam transport tunnel, 
magnets and beam monitors were realigned carefully to eliminate the 
displacement of the floor level from the tunnel to the MLF building, 
considering that the beam position at the mercury target was slightly
shifted in the vertical direction during the operation period. 
     A gas injection system which supplies helium gas bubbles to the 
mercury target for mitigating the pitting damage on the target wall 
was installed. Beam-on study to evaluate its effect is scheduled in 
October. A test module of the Cold-Charcoal-Trap (CCT) system showed high 
purification efficiency for radioactive gasses such as Xe-137, which 
saves time of exchanging the mercury target.

 A LARGE INCREASE IN THE NUMBER OF PROPOSALS FOR 2012B PERIOD

 2) Neutron Instruments and Science
      
     User operation for the 2012A period (from April to mid November 
2012) has been continuing and 100 accepted general proposals called 
by J-PARC as well as 11 general proposals called by Ibaraki prefecture
(proposals from industrial users to two Ibaraki prefecture beamlines) 
are being carried out. For the 2012B period (from mid November 2012 
to March 2013), 218 general proposals including the proposals to the 
Ibaraki prefecture beamlines were submitted and reviewed by the 
neutron science proposal review committee. Finally they were approved
by the MLF advisory board: 148 approved and 37 reserved. Separately 
11 proprietary proposals were accepted.  The trial use program for 
novice users of public beamlines has started and 10 proposals were 
approved.  In total, 185-days beamtime will be available: 88 days for 
2012A and 97 days for 2012B.  The call for the next general proposals
(2013A) will be started on November 17. 


 FRONT-END COMPONENTS FOR S-LINE AND H-LINE CONSTRUCTED

 3) Muon Science Facility (MUSE)
     
     We constructed front-end beamline components for the S-line 
and the H-line in the vicinity of the muon target. In the M2 proton 
tunnel, the S-line consists of the two sets of triplet Q-magnets SQ
1-3, SQ4-6 and a bending magnet SB1 in order to extract surface muons
for the material sciences. On the other hand, the H-line consists of 
large acceptance solenoid magnets, HS1 and HS2 made of mineral 
insulation cables (MIC), a bending magnet HB1 in order to extract 
muons or positrons (electrons) up to 120 MeV/c, for the fundamental 
physics such as the experiments on the precise Mu hyperfine 
measurement, muon-electron conversion experiment, or g-2 experiment.
     During the summer shutdown period of 2012, we completed all the 
installation of the beamline components in the M2 proton tunnel, 
where radiation is very high in the order of several mSv/h to Sv/h in 
the vicinity of the muon target.


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5. [Nuclear Transmutation Section] by Toshinobu Sasa
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 HIGH EXPECTATIONS FOR RADWASTE TRANSMUTATION

     In September, the Science Council of Japan made a recommendation 
for disposition of high-level radioactive waste to the Atomic Energy 
Commission of Japan. It recommended that the study for reducing 
radioactive waste such as transmutation technology should be promoted. 
     We revised the construction plan for Transmutation Experimental 
Facility (TEF) for Accelerator-driven System (ADS) R&D to start the 
construction from ADS Target Test Facility (TEF-T) first. Then, design 
work and licensing procedure to build Transmutation Physics 
Experimental Facility (TEF-P) will be performed simultaneously. 
Development for TEF-T equipment such as preliminary tests for 
off-beam target loop experiments and preparations for validation of 
target instruments are underway.
     A prolonged operation of JAEA Lead-Bismuth Loop #2 (JLBL-2), 
which simulates sealed-annular tube type spallation target, has 
started from August. Within this fiscal year, we are trying to operate
JLBL-2 up to 4,500 hours at the temperature of 300 C. The plan to 
modify JLBL-2 for performing simultaneous measurement of Pb-Bi flow 
rate by current Electro-magnetic method and newly added Ultrasonic 
method is discussed with the experts of Fast Breeder Reactor 
development. At the current schedule, simultaneous tests will be 
performed next year.
     For the design study of spallation target for TEF-T, reference 
operation condition was specified, and soundness of the Pb-Bi target 
was estimated. By the reference operation condition, which is the
requirement for 
the future ADS transmutor, the target casing made of T91 steel has 
enough strength for 4,500 hours operation of 400 MeV proton injection.


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6. [Safety Division] by Taichi MIURA and Hiroshi NAKASHIMA
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 APPLICATION FOR LICENSES OF THE OPERATION OF THE WHOLE FACILITIES 
WAS GRANTED BY THE MINISTRY OF EDUCATION, CULTURE, SPORTS, SCIENCE 
AND TECHNOLOGY (MEXT)

     The application for licenses of the operation of the whole 
facilities was granted by MEXT on Sep.18.

     The main topics are 1) the power-up for the all of the 
facilities (except Hadron Experimental Facility), 2) the new 
secondary beam line (muon) in the Materials and Life science 
experimental Facility (MLF). The intended power-up level at this time 
is 300 kW for user operation at MLF and is aimed up to 450 kW operation
at the Neutrino Experimental Facility.



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7. [Information System Section] by Atsushi MANABE
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 J-PARC NETWORK AND COMPUTING SYSTEM UPGRADE
 
     J-PARC does not have its own computing facility for physics 
analysis, so the KEK central computer system at Tsukuba site has 
mainly used for the purpose since 2009. For J-PARC, the resources of 
1600 SPECint06 computing power, 150 TBytes RAID disks and 2 PBytes 
tape libraries were assigned. In April 2011, the KEK central computer 
system was upgraded and also computer resources of 25,000 SPECint06 
computing power, 1.2 PBytes disks and 5 PBytes tapes are newly 
assigned for J-PARC.
     In July, the J-PARC network system, called JLAN, was also 
upgraded. The older system provided a bandwidth of 100Mbps for 
terminal ports, 1Gbps for the Internet and 2Gbps for Tokai-Tsukuba 
connection. The new upgraded system does speeds of 1Gbps for terminal 
ports, 10Gbps for the Internet and 8Gbps for Tokai-Tsukuba connection 
respectively. These two new systems will strongly support J-PARC 
experiments, which will be restarted after this summer shutdown.
    

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8. [Announcement of Symposia and Meetings] by Hiroari MIYATAKE
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     1) XVI International Conference on Electromagnetic Isotope 
Separators and Techniques Related to their Applications (EMIS2012) 
will be held at "Kunibiki-Messe" in Matsue, Japan from 2nd to 7th 
Dec., which is hosted by RIKEN Nishina Center, Institute of Particle 
and Nuclear Studies, KEK, and Institute of Modern Physics, CAS with 
chairs of Hiroyoshi Sakurai (RIKEN), Hiroari Miyatake (KEK), and 
GuoQing Xiao (IMP). 
Conference web site: http://ribf.riken.jp/emis2012/.

     2) Workshop on Low-Energy Radioactive Isotope Beam (RIB) 
Production by In-Gas Laser Ionization for Decay Spectroscopy will be 
held as a post-conference (EMIS2012) workshop at RIKEN-Wako on 
December 10 - 11, 2012. It is chaired by Sunchan Jeong, Hiroari 
Miyatake (KEK), Michiharu Wada (RIKEN), Piet Van Duppen (KU Leuven) 
and Mark Huyse (KU Leuven). RNB group of KEK hosts the workshop. 
Workshop web page: http://kekrnb.kek.jp/workshop/postEMIS2012/.


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9. [Editorial Note]
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+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Editorial Board:
Toshifumi TSUKAMOTO (Chair): toshifumi.tsukamoto at kek.jp
Nobuaki TAKAHASHI: nobuaki.takahashi at j-parc.jp
Takashi ITO: itou.takashi at jaea.go.jp
Dick MISCHKE (English Editor): mischke at triumf.ca
Junko BEANBLOSSOM (Secretary): beanblossom.junko at jaea.go.jp
++++++++++++++++End of Letter++++++++++++++++++++++++++++++++++++++++