Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Transport at FLASH Start-to-end tracking simulation analysis of beam and dark current.

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Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Transport at FLASH Start-to-end tracking simulation analysis of beam and dark current.

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Presentation transcript:

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Transport at FLASH Start-to-end tracking simulation analysis of beam and dark current transport full 3D aperture model Dark current losses identification of hot spots cleaning efficiency of gun and BC2 collimators influence of new gun layout

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Simulation Steps Astra simulation of FLASH linac (gun—dump) space charge up to BC2 entrance no apertures 2500 phase space dumps (one each 10 cm, ~30 GB) runtime: ~2 h (44 processors, particles) Aperture check with ApertureLib toolkit full 3D model of the accelerator aperture in cartesian coordinates outputs: phase space at any position, discarded particles, Twiss parameters,... runtime: ~14 min

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY 1: Machine Model

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Design Optics

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY “Dispersion”

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Aperture Model (1) AutoCAD DXF file included pre-built aperture elements Astra aperture file

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Aperture Model (1) AutoCAD DXF file included pre-built aperture elements Astra aperture file

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Aperture Model (2)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Aperture Model (3)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY 2: Dark Current

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Simulation Dark current emission: Simple field emission model Current: Gaussian around RF gun phase 0° with  =16° Homogeneous emission from cathode surface (Ø 5 mm) Current exiting the gun 200–300 µA no simulation of collective effects (space charge, CSR,... negligible)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Losses (1) ACC1 exit BC2 entrance BC3 entrance BC3 exit transverse collimators energy collimators

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Losses (1) ACC1 exit BC2 entrance BC3 entrance BC3 exit transverse collimators energy collimators

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Losses (2)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Darkcurrent Losses (3)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Longitudinal Profile (GUN)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Longitudinal Profile (ACC1)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Transverse Beam Size

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY 3: Counter Measures

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY BC2+Gun Collimators BC2 collimator Gun collimator

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Horizontal Profiles (in front of undulator entrance)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Vertical Profiles (in front of undulator entrance)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Longitudinal Phase Space (in front of undulator entrance)

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Transmission Relative dc amount 100% 30% 22% 6% 100% 18% 78% 15% Erratum available: see end of talk

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Beam Losses at 8DBC2 darkcurrent dumped on valve 100% 65% 64% 44% Simulation 100% 30% 22% 6% Measurement 100% 65% 64% 44% Erratum available: see end of talk

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY New Gun Layout ? Erratum available: see end of talk

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Conclusion More work needed on simulation (finer step size -> include ApertureLib into Astra?) Measurements needed A usable gun collimator will reduce the activation of BC2 components considerably

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Errata

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Errata In the original simulations, the gun collimator model had an effective length of more than 2 cm, which lead to a substantial overestimation of its efficiency. In the corrected model, the gun collimator length is reduced to about 2 mm. The 100% level for the dark current in the old gun layout was not calculated correctly. Main consequences: Better agreement between measurement and simulation (although still not satisfying) The simulation confirms that the dark current output of the redesigned gun is lower than that of the old gun, as expected.

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Dark Current Transmission 100% 81% 22% 18% 100% 96% 78% 71% Relative dc amount 100% / 100% 58% / 58%

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY Beam Losses at 8DBC2 first quick-and-dirty measurement: dark current dumped on valve 100% 65% 64% 44% Simulation 100% 81% 22% 18% Real transverse position of BC2 collimator unclear Unknown contribution of ACC1 dark current Gun collimator is misaligned in real world Possible additional dark current losses by mis-steering

Beam dynamics meeting, 2007/05/14Lars Fröhlich, MPY New Gun Layout