Stand-alone cryocooler-based systems allow applications at facilities where no cryogenic equipment and expertise is available at large scale, or where a mobile system can be moved between beam lines based on different application. The main technical challenge of this technology is to minimize the heat losses to the liquid helium so that commercial self-contained cryocoolers are able to handle...
High Energy Photon Source (HEPS) is a high-performance and high-energy synchrotron radiation light source with a beam energy of 6GeV and an ultra-low emittance of better than 0.06nm×rad. The HEPS is mainly composed of accelerator, beamlines and end-stations. The HEPS would provide the synchrotron beam with will brilliance higher than 1×1022 phs/s/mm2/mrad2/0.1%BW. And the hard X-ray with photo...
Platform of Advanced Photon Source Technology R&D (PAPS) in the Institute of High Energy Physics (IHEP) is a finished project, which can provide a comprehensive research and testing platform for the particle accelerator, X-ray detection and optics. As one of the important parts of the platform, 2K superfluid helium cryogenic test system for the superconducting cavities is composed of three...
High energy proton colliders towards 100 TeV are proposed these years to study the physics beyond the Standard Model. The colliders call for 16-24 Tesla (T) accelerator magnets to bend and focus the particle beams. IHEP-CAS has been engaged in developing high field magnet technology with Nb3Sn and HTS materials from 2014: several model dipoles have been developed with combined common coil...
Various superconducting magnets are being developed and manufactured in Budker Institute of Nuclear Physics, Novosibirsk.
Major works are focused on insertions devices for the currently built SKIF – new source of synchrotron radiation research. This project demands at least 10 insertion devices including superconducting wigglers and undulators having high magnet and cryogenics parameters....
The ultra-large cryogenic refrigeration system refers to the refrigeration system from liquid hydrogen with equivalent refrigeration capacity greater than or equal to 10000 watts at the liquid helium temperature to the superfluid helium temperature zone. It is an indispensable key system in the fields of helium resource development, aerospace engineering, nuclear energy utilization, hydrogen...
Two major in-house cryogenic techniques have been applied to the cryogenic in-vacuum undulator and helium gas purification module. The cryogenic in-vacuum undulator is used to generate high-brilliance X-rays at high photon energies and its liquid nitrogen cooling system maintains the magnet temperature at 170K. The purifier module improves the quality of the helium gas by using cold trap...
NSRRC in Taiwan houses two light sources: Taiwan Light Source (TLS) and Taiwan Photon Source (TPS). TLS has an electron energy of 1.5 GeV and a beam current of 360 mA, while TPS has an electron energy of 3.0 GeV and a beam current of 500 mA. Both light sources use SRF modules as their accelerating cavities. These SRF modules have been in operation for approximately 18 and 7 years for TLS and...
The Belle II experiment is an international collaboration of 1000 Physicists which employs the SuperKEKB e+e- collider at the KEK, Laboratory in Tsukuba, Japan. The experiment employs a distributed computing solution to supply the storage and processing power needed to analyse the data acquired by the Belle II detector. This presentation will describe the current status of the Belle II...
High-energy physics (HEP) has been studied with e-Science for research anytime, anywhere. Since we could not go to on-site accelerator laboratory in the COVID19 era, the research environment of e-Science had a lot of effects on HEP in Korea. In addition, recent big data production requires high-speed data processing and deep learning, Therefore, HEP needs an enormous size of evolving...
Academia Sinica Grid Computing Centre (ASGC) has become the core facility for big data analysis and scientific computing in Academia Sinica from 2023. Based on WLCG experiences for the past two decades, ASGC is supporting advanced scientific computing of broader disciplines by distributed cloud infrastructure. In this presentation, the development and strategy of science cloud based on WLCG...
The Australian Synchrotron is a division within ANSTO and one of Australia’s premier research facilities. It produces powerful beams of light that are used to conduct research in many important areas including health and medical, food, environment, biotechnology, nanotechnology, energy, mining, agriculture, advanced materials and cultural heritage.
After 15 years of uninterrupted operation...
The KEK Central Computer System (KEKCC) provides large-scale computer resources, including Grid computing systems, and essential IT services, such as e-mail and web services to support many research activities in KEK. The current status of KEKCC and Grid systems will be reported in this presentation.
The High Energy Physics experiments and facilities in China are producing or will produce huge data, all this data should be stored, processed and shared properly. This talk will give an introduction about the networking and computing status for HEP experiments at IHEP.
The grid storage at Melbourne has been provided by a Disk Pool Manager (DPM) storage system which is now reaching the end of software support this year, as well as the end of the disk lifetimes. Additionally the IBM Jet cluster that provided compute for ATLAS at Melbourne has also had to be turned off due to hardware failures.
Continuing to provide grid storage and compute for the ATLAS and...
The Tokyo Regional Analysis Center, located at the International Center for Elementary Particle Physics (ICEPP) at the University of Tokyo, has provided computing resources to the ATLAS experiment in the Worldwide LHC Computing Grid as a Tier-2 site. We report on our current status and activities, such as the hardware replacement in January 2021.
Recent advances in X-ray beamline technologies, including the advent of very high-brilliance beamlines at next-generation synchrotron sources and advanced detector instrumentation, have led to an exponential increase in the speed of data collection. As a consequence, there is an increasing need for a data analysis platform that can refine and optimize data collection strategies in real time...
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.Synchrotron radiation (SR) is a unique high-brightness and fully polarized light source.
However, typical insertion devices supply only linearly polarized radiation, precluding
studies of chiral dynamics and spin structures. To fulfill a strong demand for circularly
polarized radiation, an elliptically polarized undulator (EPU) provides the greatest
merit flux and thus has become the...
A compact THz-FEL facility, named as Delhi Light Source (DLS), is being commissioned at Inter University Accelerator Centre (IUAC), New Delhi. The facility consists of RF photocathode electron gun, high power RF system, the nano-second solid state laser system to be replaced soon by the femto-second (fs) Fibre laser system, the Undulator magnet, the Photocathode deposition systems, various...
The 4th generation synchrotron light source is under construction in Budker Institute of Nuclear Physics. The first stage of the linear accelerator is under tests now. The aim of the experiments is to obtain a beam with emittance, charge and energy spread corresponding to the demands of injection into the booster of storage ring. Only one of five accelerating structures is applied in these...
The Korea-4GSR project is a green-field project which was launched to build a diffraction-limited light source. The accelerator is aimed to achieve an emittance of less than 100 pm-rad with a kinetic energy of 4 GeV and a circumference of 800 m. Various beam diagnostics with a few micrometer spatial and picoseconds temporal resolutions are necessary to verify the beam quality. It contains a...
Laser-plasma wakefield accelerators (LWFA) have been proposed as a potential solution for compact and high-energy free-electron lasers (FELs). However, the electron beam quality generated by LWFA may not meet the requirements for X-ray FELs. To overcome this challenge, one promising approach is to use an external seed beam from a radiofrequency (RF) photocathode with LWFA. Recently, the...