论文信息 - Study of the hybrid controller electronics for the nano-stabilization of mechanical vibrations of CLIC quadrupoles

Study of the hybrid controller electronics for the nano-stabilization of mechanical vibrations of CLIC quadrupoles

In order to achieve the required levels of luminosity in the CLIC linear collider, mechanical stabilization of quadrupoles to the nanometre level is required. The paper describes a design of hybrid electronics combining an analogue controller and digital communication with the main machine controller. The choice of local analogue control ensures the required low latency while still keeping sufficiently low noise level. Furthermore, it reduces the power consumption, rack space and cost. Sensitivity to radiation single events upsets is reduced compared to a digital controller. The digital part is required for fine tuning and real time monitoring via digitization of critical parameters.

[1] Kurt Artoos,et al. SYSTEM CONTROL FOR THE CLIC MAIN BEAM QUADRUPOLE STABILIZATION AND NANO-POSITIONING ∗ , 2011 .

[2] Kurt Artoos,et al. STABILIZATION AND POSITIONING OF CLIC QUADRUPOLE MAGNETS WITH SUB-NANOMETRE RESOLUTION ∗ , 2011 .

[3] Jean-Pierre Delahaye. Towards CLIC feasibility , 2010 .

[4] Kurt Artoos,et al. Study of the electronics architecture for the mechanical stabilisation of the quadrupoles of the CLIC linear accelerator , 2010 .

[5] Kurt Artoos,et al. Nano-Motion Control of Heavy Quadrupoles for Future Particle Colliders: An Experimental Validation , 2011 .