Damping rings with very small normalized equilibrium emittance and short damping times are required to deliver trains of bunches with a high repetition rate for the high-luminosity linear colliders. Using analytic expressions for the equilibrium emittance as a function of deflection angle per dipole, as well as the expression for the Twiss parameters providing the minimum emittance, a strategy to stay close to this minimum is described. In order to get as close as possible to the optimum Twiss parameters values, a quadruplet lattice with high horizontal phase advance is introduced. Finally, this approach is illustrated for the particular case of the CLIC damping ring and the resulting performance is described.
The design of CLIC is based on a two-beam scheme, where the short pulses of high power 30 GHz RF are extracted from a drive beam running parallel to the main beam. The 3 rd generation CLIC Test Facility (CTF3) will demonstrate the generation of the drive beam with the appropriate time structure, the extraction of 30 GHz RF power from this beam, as well as acceleration of a probe beam with 30 GHz RF cavities. The project makes maximum use of existing equipment and infrastructure of the LPI complex, which became available after the closure of LEP. In the first stage of the project, the "Preliminary Phase", the existing LIL linac and the EPA ring, both modified to suit the new requirements, are used to investigate the technique of frequency multiplication by means of interleaving bunches from subsequent trains. This report describes the design of this phase.
Computer assisted controls at the 28 GeV PS made their entry in 1967 and today around 80% of the processes are included in various styles. Beam intensity has since increased two orders of magnitude and interleaved cycles of different beam properties are now serving SPS, ISR and the 28 GeV experimental area. This came about by substantial additions to the accelerator equipment, the main one being the Booster and Linac. Plans up to the end of 1980 include: addition of the Antiproton Accumulation Ring, acceleration of antiprotons in the CPS, the concomitant beam transfer and switching, and multibatch filling of the SPS, requiring cycles times down to 0.65 sec. The improvement programme for controls aims to alleviate the operational and maintenance problems ensuing from this explosive expansion and to create a framework for further growth.2. Introduction The importance of efficient controls in the machine studies which led up to and accompanied the improvements and new projects, can hardly be overestimated. Machine studies and even routine operation indeed find themselves growingly impaired by shortcomings, diversity in presentation and underlying logic and by the disjointed nature of the controls that followed the expansion. The upkeep and improvement of hardware and software are scattered over a number of groups and are often only known to one single specialist, hence vulnerability and hard to a6ses total use of resources.Recent trends make a life cycle of another 10 to 15 years highly probable and further growth cannot be ruled out. It was thus decided to build an integrated and user-oriented control systeml that can cope with growth, taking the SPS philosophy2 as a starting point. Users aspects(i) Operators and machine experimenters wish to see a virtual machine, i.e. an apparent structure, following the actions on and the behaviour of the beam, hardware and control intricacies being hidden. As attributes they wish, efficiency, simultaneity, and flexibility for machine experiments, a trustworthy surveyand-alarm system for routine operation.The process is thus divided up so that operationally relevant subsets may be selected through a tree structure from the touch-panels. There are separate trees for different contexts, e.g. starting-up, settingup and machine study, normal operation, probably also a hardware tree and a controls specialist tree. Operations have further specified the applications programs, in particular interactions and displays and they have participated in the choice of console hardware and facilities. A structured naming scheme for process variables and interactions has been divisionally accepted.(ii) Process equipment engineers expect assistance for maintenance and improvements of their hardware. The main consoles being essentially reserved for operation, there is a need for local access through terminals at several levels and facilities for engineers, to develop, load and run their own detailed diagnostic programs for process-hardware off-line or on-line tests. Operators must be able to call fi...
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