Add to ORKGRecovery of J-PARC Hadron Experimental Facility from the radioactive material leakage incident occurred on May 23, 2013 is reported. Recovery took long time. However its essential part was completed by the beginning of Japanese Fiscal Year 2015. Then we could start the beam operation of Hadron Experimental Facility from April 9, 2015. Experiments with slow extraction beam started on April 24, 2015. The beam intensity delivered to Hadron Experimental Facility reached approximately 32kW by the end of June, 2015. Recent activities on partic le and nuclear physics in the Hadron Experimental Facility are described also
A project to study high-density nuclear matter using heavy ion collisions in a beam energy range of ...
An outline is explained for hadron-physics projects at J-PARC, which is considered to be one of the ...
J-PARC is in the first phase now, which consists of three accelerators; linac, 3-GeV synchrotron, an...
Current status and hadron physics programs of Japan Accelerator Research Complex (J-PARC) are report...
AbstractJapan Proton Accelerator Research Complex (J-PARC) has started the beam delivery at 2009 to ...
After the big earthquake in the east part of Japan on March 11, 2011, the beams in the hadron experi...
The J-PARC Hadron Facility is designed as a multipurpose experimental facility for a wide range of p...
J-PARC is a large scale facility of the proton accelerators for the multi-purpose of scientific rese...
The J-PARC (Japan Proton Accelerator Research Complex) is a project to pursue frontier science and n...
The slow cycling main ring synchrotron (MR) is located the furthest downstream in the J-PARC acceler...
On January 27, 2009, protons were accelerated by the 50GeV proton synchrotron (50GeV-PS) of the Japa...
The construction of an accelerator complex, known as the J-PARC project[1], is proceed-ing at Tokai ...
A cesium-free H^{-} ion source driven by a LaB_{6} filament is being operated for the beam commissio...
The present status of the design and construction of the control system for Japan Proton Accelerator...
The commissioning of the K1.8 beam line in the hadron hall of J-PARC has been going very well. In No...
A project to study high-density nuclear matter using heavy ion collisions in a beam energy range of ...
An outline is explained for hadron-physics projects at J-PARC, which is considered to be one of the ...
J-PARC is in the first phase now, which consists of three accelerators; linac, 3-GeV synchrotron, an...
Current status and hadron physics programs of Japan Accelerator Research Complex (J-PARC) are report...
AbstractJapan Proton Accelerator Research Complex (J-PARC) has started the beam delivery at 2009 to ...
After the big earthquake in the east part of Japan on March 11, 2011, the beams in the hadron experi...
The J-PARC Hadron Facility is designed as a multipurpose experimental facility for a wide range of p...
J-PARC is a large scale facility of the proton accelerators for the multi-purpose of scientific rese...
The J-PARC (Japan Proton Accelerator Research Complex) is a project to pursue frontier science and n...
The slow cycling main ring synchrotron (MR) is located the furthest downstream in the J-PARC acceler...
On January 27, 2009, protons were accelerated by the 50GeV proton synchrotron (50GeV-PS) of the Japa...
The construction of an accelerator complex, known as the J-PARC project[1], is proceed-ing at Tokai ...
A cesium-free H^{-} ion source driven by a LaB_{6} filament is being operated for the beam commissio...
The present status of the design and construction of the control system for Japan Proton Accelerator...
The commissioning of the K1.8 beam line in the hadron hall of J-PARC has been going very well. In No...
A project to study high-density nuclear matter using heavy ion collisions in a beam energy range of ...
An outline is explained for hadron-physics projects at J-PARC, which is considered to be one of the ...
J-PARC is in the first phase now, which consists of three accelerators; linac, 3-GeV synchrotron, an...