Abstract
The first (Phase-1) commissioning of SuperKEKB, an asymmetric-energy electron-positron collider at KEK, began in February 2016, after more than five years of upgradation work on KEKB and successfully ended in June 2016. A major task of the Phase-1 commissioning was the vacuum scrubbing of new beam pipes in anticipation of a sufficiently long beam lifetime and low background noise in the next commissioning, prior to which a new particle detector will be installed. The pressure rise per unit beam current decreased steadily with increasing beam dose, as expected. Another important task was to check the stabilities of various new vacuum components at high beam currents of approximately 1 A. The temperature increases of the bellows chambers, gate valves, connection flanges, and so on were less than several degrees at 1 A, and no serious problems were found. The effectiveness of the antechambers and TiN coating in suppressing the electron-cloud effect (ECE) in the positron ring was also confirmed. However, the ECE in the Al-alloy bellows chambers was observed where TiN had not been coated. The use of permanent magnets to create an axial magnetic field of approximately 100 G successfully suppressed this effect. Pressure bursts accompanying beam losses were also frequently observed in the positron ring. This phenomenon is still under investigation, but it is likely caused by collisions between the circulating beams and dust particles, especially in the dipole magnet beam pipes.
Highlights
SuperKEKB is an asymmetric-energy electron-positron collider at KEK, Japan, and is a successor to the former KEKB (KEKB B-factory) [1,2,3,4]
The beam injection into the low energy ring (LER) and high energy ring (HER) started on February 8 and 22, respectively, in 2016 [1]
Note that the pressures presented here and hereafter are 3 times the values displayed by the vacuum gauges, taking into account the conductance between the beam channels, where the circulating beams pass, and the vacuum gauge ports located above the sputter ion pumps [7]
Summary
SuperKEKB is an asymmetric-energy electron-positron collider at KEK, Japan, and is a successor to the former KEKB (KEKB B-factory) [1,2,3,4]. 93% of the beam pipes and vacuum components of the LER were replaced with new ones. 5000 flanges were installed in the new beam pipes and bellows chambers. The Phase-1 commissioning had three main tasks: the first was vacuum scrubbing in anticipation of a sufficiently long beam lifetime and background-noise reduction for the particle detector in the (Phase-2) commissioning planned for 2017, the second was the starting of various components in the ring and checks of stability and effectiveness of these components at high beam currents around 1 A and the third was the establishment of beamoperation tools such as those for beam optics and closedorbit distortion corrections. Two major problems experienced during the commissioning, that is, the ECE in the Al-alloy bellows chambers and the frequent pressure bursts accompanying beam losses in the LER, are reported
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