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SSRL EPU Magnetic Measurements Zachary Wolf March 15, 2013

SSRL EPU Magnetic Measurements Zachary Wolf March 15, 2013. Outline. Overview of SSRL EPU measurements Field integral measurement methods SSRL EPU field integrals - Scott Discussion - All. Overview Of SSRL EPU Measurements. Danfysik measured the field integrals of the EPU

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SSRL EPU Magnetic Measurements Zachary Wolf March 15, 2013

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  1. SSRL EPUMagnetic MeasurementsZachary WolfMarch 15, 2013

  2. Outline • Overview of SSRL EPU measurements • Field integral measurement methods • SSRL EPU field integrals - Scott • Discussion - All

  3. Overview Of SSRL EPU Measurements • Danfysik measured the field integrals of the EPU • SLAC measurements with a long coil did not agree • We wanted independent measurements using another technique • We asked Diego Arbelaez of LBL to set up his pulsed wire system • SLAC was developing a single moving wire system for use in the Delta undulator • We set up the single moving wire and the pulsed wire together in the EPU • The single moving wire and the pulsed wire gave the same answer, they showed large gradients, however • SSRL found that one of the undulator jaws was not moving, fixed it • Moving wire and pulsed wire both gave the Danfysik results after the jaw was fixed • Set jaw back to broken mode, got high gradient answer • Set jaw back to fixed mode, got Danfysik answer • Setting up long coil again to repeat those measurements

  4. Field Integrals: Moving Wire • Samples field locally • average over 0.5 mm wire move distance • Small wire sag with CuBe wire • Straightforward measurement • know how far wire moved from stages, • numerically integrate voltage samples • Short measurement time, small drift • Small signal from single wire I1 I2

  5. Field Integrals: Pulsed Wire • Calibration built into measurement • Small sag with CuBe wire • Large noise • Small wire motion 40 μTm 5 A 20 μs

  6. Field Integrals: Flip Coil • Averages field over coil width • Cu wires, potential sag • Many turns, large signal • Short measurement time, small offset drift • Bumps in coil can cause large errors

  7. Field Integrals: Long Coil • Same as moving wire, but with many turns • Averages over volume of coil wire bundle • Coil assembly keeps wire bundle straight • Large signals • Low noise • Short measurement time, small offset drift • Small bumps in wire bundle don’t affect field integral

  8. Field Integrals: Hall Probe • Hall probe samples field • Numerically integrate to get field integrals • Subtract large numbers to get small number • Small offsets in probe give large field integrals • Long measurement time, large offset drift

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