Radiation safety design for SSRL storage ring

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• 作者：Hesham Khater ; James Liu ; Alberto Fasso ; Alyssa Prinz ; Sayed Rokni
• 关键词：SPEAR3 ; Synchrotron radiation ; Storage ring design
• 刊名：Radiation Measurements
• 出版年：2006
• 出版时间：15 December 2006
• 年：2006
• 卷：41
• 期：Supplement 2
• 页码：S172-S178
• 全文大小：411 K

文摘

In 2003, the Stanford Synchrotron Radiation Laboratory (SSRL) had upgraded its storage ring to a 3rd generation storage ring (SPEAR3). SPEAR3 is deigned to operate at 500-mA stored beam current and 3-GeV energy. The 234-m circumference SPEAR3 ring utilizes 60-cm-thick concrete lateral walls, 30-cm-thick concrete roof, as well as 60- or 90-cm-thick concrete ratchet walls. A total of will be injected into the ring with an injection power of 4 W and an injection efficiency of 75 % . Normal beam losses occur due to both injection and stored beam operations in the total of 20 low loss as well as 3 high loss limiting apertures. During the 6-min injection period, an instantaneous power loss of 0.05 W occurs at each low loss aperture. When averaged over the operational year, the loss of both the injection and the stored beams is equivalent to an average loss of 2 mW at each low loss aperture. On the other hand, the average losses in the high loss apertures are 16 mW for the injection septum, 47 mW for the beam abort dump, and 13 mW for the ring stoppers. The shielding requirements for losses in the new ring were based on a generic approach that used both FLUKA Monte Carlo particle generation and transport code and empirical computer codes and formulae.