| Paper |
Title |
Page |
| WEIFI03 |
Synchrotron Technology for Industrial Research, Development and Quality Assurance - Experience in Commercial Services
|
0 |
| |
- T. Baumbach
FZ Karlsruhe, Karlsruhe
|
|
| |
This presentation will describe the product, the market for it, the industrial environment and future projection or uses for it. It will provide a full scientific description of the development, design and performance of the product, and describe the problems, the challenges, the barriers (if any) and how to overcome them. The presentation will conclude with an analysis of what went right, what went wrong, and give advice to potential newcomers to this field.
|
|
| WEPCH156 |
CERN Safety Alarms Monitoring System (CSAM)
|
2293 |
| |
- E. Manola-Poggioli, L. Scibile
CERN, Geneva
|
|
| |
The CERN Safety Alarms Monitoring (CSAM) system is designed to aquire and transmit reliably to the CERN Fire Brigade all the alarms generated by a large number of safety alarm equipment distributed around the sites and in the underground. The quality and accuracy of the information provided by CSAM is crucial to permit a quick and efficient intervention by the Fire Brigade. The CSAM projet was launched in 1999 to replace the previous alarm system which used obsolete technology and operator devices. The new system is in operation since 2005 and 2/3 of all alarm equipement on the CERN sites are now handled by the new system. The migration/installation process is is expected to terminate in May 2006. This paper presents the system architecture, the deployment process and the return of experience in the accelerator environment.
|
|
| WEPCH178 |
Simulation Study of Compact Hard X-ray Source via Laser Compton Scattering
|
2346 |
| |
- R. Kuroda, M.K. Koike, H. Ogawa, N. Sei, H. Toyokawa, K. Y. Yamada, M.Y. Yasumoto
AIST, Tsukuba, Ibaraki
- N. Nakajyo, F. Sakai, T. Yanagida
SHI, Tokyo
|
|
| |
The compact hard X-ray source via laser Compton scattering between high intensity electron beam and high power laser beam was developed at FESTA (The Femtosecond Technology Research Association) project in collaboration between AIST and SHI. According to completion of the project in March 2005, the compact hard X-ray source is being transferred from FESTA to AIST to upgrade and to apply the system to biological and medical uses. Our system consists of a laser-driven photocathode rf gun, two 1.5m-long S-band accelerator structures and a high power Ti:Sa Laser system. This system can generate a hard X-ray pulse which has variable energy of 12 keV – 33 keV with narrow bandwidth by changing electron energy and collision angle. Maximum X-ray photon yield at FESTA was accomplished about 107photons/s (@10Hz, MAX 33keV) in case of 165 degree collision angle. In the next phase, we are planning to make the total system much compact using X-band or C-band accelerator structures with permanent magnets. We have carried out the numerical simulations to investigate the possibility of these compact systems. In this conference, we will talk about results of the simulations and future plans.
|
|