MTA-Beam, Solenoid, Cavity

HP-Vacuum, Cryo-RT RF Cavity Milorad Popovic FNAL MTA-Beam, Solenoid, Cavity MuCool Test Area RF Workshop, August 22, 2007 — Fermilab

Motivation • Design cavity than can be operated & tested: • As Open or Closed Cell Cavity • Under High Pressure ~1000psi or Vacuum ~10e-7 • With 400MeV Proton Beam • At Room Temperature • At Liquid Nitrogen Temperature • With ~ 4 Tesla Magnetic Field MuCool Test Area RF Workshop

Test Results with Mark II

Cavity, 806.8MHz, gap 12.6

Cavity, 800.0MHz, gap 12.4

Cavity, Mark III

Pull out, 0.2cm MuCool Test Area RF Workshop August 22, 2007 — Fermilab

Push in, 0.2cm MuCool Test Area RF Workshop August 22, 2007 — Fermilab

Sliding plate, -1cm MuCool Test Area RF Workshop August 22, 2007 — Fermilab

Sliding plate, +1cm MuCool Test Area RF Workshop August 22, 2007 — Fermilab

Closed Cell, Sliding plate MuCool Test Area RF Workshop August 22, 2007 — Fermilab

Closed Cell, Sliding plate, 3cm MuCool Test Area RF Workshop August 22, 2007 — Fermilab

From SuperFish Field normalization (NORM = 1): EZEROT = 7.57000 MV/m Frequency = 812.24775 MHz Stored energy = 4.8554590 Joules Using standard room-temperature copper. Power dissipation = 999.4979 kW Q = 24792.3 Shunt impedance = 46.594 MOhm/m r/Q = 181.305 Ohm Average magnetic field on the outer wall = 25422.6 A/m Maximum H (at Z,R = 11,4) = 62077.6 A/m Maximum E (at Z,R = 7.42678,3.55781) = 63.5013 MV/m, 2.42769 Kilp. MuCool Test Area RF Workshop August 22, 2007 — Fermilab

RF Power Segment Zend Rend Emax Power (cm) (cm) (MV/m) (kW) ---------------------------------------------------------- -14.000 0.0000 1 -14.000 2.8000 0.1098 7.9891E-06 2 -7.0000 2.8000 19.52 0.1439 3 -7.0000 4.0000 62.27 10.90 4 -10.000 4.0000 42.74 89.79 5 -10.000 7.0000 5.114 86.31 6 -10.000 12.000 5.110 121.6 7 11.000 12.000 1.645 381.5 8 11.000 7.0000 5.115 121.8 9 11.000 4.0000 5.146 86.41 10 8.0000 4.0000 38.83 89.92 11 8.0000 2.8000 63.50 10.96 12 14.000 2.8000 21.42 0.1438 ---------------------------------------------------------- Total 999.5 MuCool Test Area RF Workshop August 22, 2007 — Fermilab

Questions Mechanical Design - Safety RF Engineering Design Diagnostics; Rf pickup Fiber, for light pickup X-ray detectors (pin diodes?) ….. Do we wont larger beam pipe? Do we wont large accelerating gap? Do we wont highest peak E field? Do we wont as little as possible of H gas? Do we wont different materials in the beam? All these tests cannot be done like last time, over few weekends, can we get longer periods of time, weeks ..! Do we wont short/long beam pulses? Is there more tests to be done? ….. .. MuCool Test Area RF Workshop August 22, 2007 — Fermilab

MTA-Beam, Solenoid, Cavity

MTA-Beam, Solenoid, Cavity

Presentation Transcript

MTA SZTAKI

Solenoid Valves

Beam tube damping estimations for SPL cavity

Detector Solenoid and Compensating Solenoid update

Primary Beam Test of Cavity BPM

Solenoid Valve

Beam Dynamics of the IR: The Solenoid, the Crossing Angle, The Crab Cavity, and All That

LCLS Cavity Beam Position Monitor

First Beam in the MTA beamline

Superconducting Solenoid:

GlueX Solenoid

Solenoid Status

Accident scenarios on a quad in MTA beam line

RT Solenoid-Cavity Spacing

On Cavity Tilt + Gradient Change (Beam Dynamics)

Static Beam Loading: Lumped model for the generator-cavity-beam system;

MTA

Solenoid

Solenoid Switches

Solenoid valve supplier, Water Solenoid Valves, Steam Solenoid Valves, solenoid valve manufacturer in India

GlueX Solenoid

Beam dynamics simulations with the measured SPARC gun-solenoid field