FAST KICKER STATUS Fabio Marcellini On behalf of LNF fast kickers study group* * D. Alesini, F. Marcellini P. Raimondi, S. Guiducci.

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Presentation transcript:

FAST KICKER STATUS Fabio Marcellini On behalf of LNF fast kickers study group* * D. Alesini, F. Marcellini P. Raimondi, S. Guiducci.

RFSEP – RF Separators Milestones of the Task 1.Design and tests of a strip line kicker for beam injection in DAFNE storage rings. 2.Study of a strip line kicker for ILC damping ring.

Input ports Output ports (LOAD) Strip ceramic supports BEAM new DA  NE injection kickers: design Tapered stripline Elliptical cross section HV feedthrough

a=25 mm t h  Horizontal component of the electric field (E T ) on the kicker axis as a function of the electrode coverage angle. a=25 mm t h  Efficiency Field uniformity Circular case Circular/elliptical cases Advantages of elliptical cross section and tapered stripline (1/3) The profile of deflecting field depends on the coverage angle.

The elliptical cross section was originally chosen to minimize the variation of the vertical dimension of the beam pipe between the injection region and the adjacent dipole region and to increase the deflection efficiency. With a tapered stripline kicker it is possible to minimize: a)the non uniformity of transverse deflection as a function of the transverse position; b) the contribution of the kicker to the machine impedance; c) the reflection coefficient at high frequency (short pulses) because of smoother transition between feedthrough coax line and stripline. Advantages of elliptical cross section and tapered stripline (2/3)  3% Field flatness by integration

PARAMETERS Beam Energy E [MeV]510 Time spacing between bunches [ns]2.7 Deflection [mrad]5 Total deflecting voltage VT [MV]2.5 Total kicker length L [cm]  90 Voltage per strip [kV]45 Input pulse length [ns]  5 Pulse length “seen” by bunches [ns]  10 Max rep rate [Hz]10 injection kicker parameters

Input ports Output ports (LOAD) Strip ceramic supports BEAM R&D on HV feedthrough Tapered stripline Elliptical cross section HV feedthrough

When HV is applied the possibility of discharges is higher in the end-section of the kicker electrodes, where the electrode itself is closer to the vacuum tube. HV 50 Ohm (wide band) commercial feedthroughs do not exist and an R&D activity has been necessary. The wide band of the feedthroughs is important to keep low the beam impedance of the kicker even well beyond the frequency spectrum of the input pulse. HV tests Short stripline for HV tests Different feedthroughs have been mounted on this stripline for HV test and RF measurements

A commercial feedthrough (not 50 Ohm) has been initially tested without success. Several FID GmbH HV pulser have been tested up to the final version under specification: 45 kV, flat top 5 ns An HV feedthrough at 50 Ohm has been designed, realized and tested at LNF with complete success up to 50 kV with the FID pulser. HV tests

HV tests on the new kickers (1/3)

New pulser (FID) Old pulser (LNF) HV tests on the new kickers (2/3) 25 kV 250 ns 45 kV 5 ns

New pulser (FID) HV tests on the new kickers (3/3) Old pulser (LNF)

RF test (Network Anal.) on the new injection kickers Connectors for RF test with NA

Installation in the DA  NE rings (Nov. 07) e+ IP the kickers have been connected to the old pulser systems

ILC kickers: uniformity of the deflecting field (1/4) STARTING POINT PARAMETERS  x_KICK =65 m;  y_KICK =20 m A x_max =A y_max =0.09 m  rad (injected) Bunches distance = 3.08 ns Considered stripline geometries Geometry 1 Geometry 2 y x 25 mm  /2=45 deg

ILC kickers: uniformity of the deflecting field (2/4) Geometry 1 Geometry 2 the non-uniformity of the deflecting field affects the distribution of the particle in the bunch. This effect has been studied and results are reported for example in:

Tapered strip advantages on beam coupling and transfer impedance L tap =50mm L tot =300mm

Future programs - Substitution of the old pulser (long pulse) with the FID pulsers (positron ring) -HV load R&D -Timing control - Beam coupling impedance measurements on fast kickers (wire method) - Installation in DAFNE of “dump” kickers (2 more kickers already built). -This will allow to make tests on the beam with pulsers of different types.

CONCLUSIONS DA  NE new stripline injection kickers successfully installed in the collider. ILC kickers studies in progress Future programs: - fast FID pulsers installation -”dump” kickers installation in DAFNE