The HD-DCM-Lite: A High-Dynamic DCM with Extended Scanning Capabilities for Sirius/LNLS Beamlines

Perna, Alain; Duarte, Henrique; Geraldes, Renan; Moraes, Marcelo; Saveri Silva, Marlon; Souza, Mailson; de Albuquerque, Guilherme

doi:10.18429/JACoW-MEDSI2020-TUPC11

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BiBTeX citation export for TUPC11: The HD-DCM-Lite: A High-Dynamic DCM with Extended Scanning Capabilities for Sirius/LNLS Beamlines

@inproceedings{perna:medsi2020-tupc11,
  author       = {A.V. Perna and H.O.C. Duarte and R.R. Geraldes and M.A.L. Moraes and M. Saveri Silva and M.S. Souza and G.S. de Albuquerque},
% author       = {A.V. Perna and H.O.C. Duarte and R.R. Geraldes and M.A.L. Moraes and M. Saveri Silva and M.S. Souza and others},
% author       = {A.V. Perna and others},
  title        = {{The HD-DCM-Lite: A High-Dynamic DCM with Extended Scanning Capabilities for Sirius/LNLS Beamlines}},
  booktitle    = {Proc. MEDSI'20},
  pages        = {203--206},
  eid          = {TUPC11},
  language     = {english},
  keywords     = {controls, synchrotron, radiation, synchrotron-radiation, instrumentation},
  venue        = {Chicago, IL, USA},
  series       = {Mechanical Engineering Design of Synchrotron Radiation Equipment and Instrumentation},
  number       = {11},
  publisher    = {JACoW Publishing, Geneva, Switzerland},
  month        = {10},
  year         = {2021},
  issn         = {2673-5520},
  isbn         = {978-3-95450-229-5},
  doi          = {10.18429/JACoW-MEDSI2020-TUPC11},
  url          = {https://jacow.org/medsi2020/papers/tupc11.pdf},
  note         = {https://doi.org/10.18429/JACoW-MEDSI2020-TUPC11},
  abstract     = {{After successfully designing, installing, and commissioning two units of the High-Dynamic Double-Crystal Monochromator (HD-DCM) at the Brazilian Synchrotron Light Laboratory (LNLS) - Sirius, two more units are now required. Since they demand only a smaller energy range (5 to 35 keV), the total gap stroke of the new instruments can be significantly reduced, creating an opportunity to adapt the existing design towards the so-called HD-DCM-Lite. Removing the large gap adjustment mechanism allows a reduction of the main inertia by a factor of 5, enabling the HD-DCM-Lite to deliver energy flyscans of hundreds of eV reaching 20 cycles per second while keeping fixed exit and the pitch stability in the range of 10 nrad RMS (1 Hz - 2.5 kHz). Hence, an unparallel bridge between slow step-scan DCMs and fast channel-cut monochromators is created. This work presents the in-house development of the HD-DCM-Lite, focusing on its mechanical design, discussions on the ultimate scanning constraints (rotary stage torque, voice-coil forces, interferometers and encoders readout speed limits and subdivisional errors), and thermal management.}},
}