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  •  Prepare the hutch for the shift (done 1h before the actual start time)
    •  open the grafana dashboards located here (requires UNIX login/pwd) to access beam owner, energies and coatings
    •  no gate valve in the trajectory
      •  check in the vacuum windows that no gate valves from the NEH to the MEC hutch are IN (red)
      •  it is ok that the DG2 STP 1 is IN
      •  it is ok that the GL window is IN in MEC
    •  

      open the rolling status and confirm that no devices upstream the hutch obstructs the beam

      Code Block
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      op.rs()
    •  

      insert yag3 to provide a photon terminator before TCC prior to send any beam in the hutch

      Code Block
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      op.yag3.insert()
    •  confirm that the chamber is loaded with targets and being pumped down to be ready at the start of the shift
    •  search the hutch but leave SH6 IN (you are not the beam owner yet)
  •  15 min before the shift begins, call ACR at x2151 to check
    •  look at current ACR beam operator on shift here
    •  confirm photon energy
    •  confirm pulse energy
    •  confirm pulse duration
    •  confirm beam mode
    •  confirm multiplexing mode
    •  ask for an e-loss scan
  •  transition to beam ownership
    •  ACR calls you to confirm they are tweaking the beam for you
    •  confirm with ACR that MR1L0 and MR2L0 have the right coating following this page
      •  if moving the mirror yourself, then open MR1L0 and MR2L0 HOMS GUI located in the mechome > LCLS tab > HOMS overview button
      •  set the coatings to the appropriate material as a function fo the photon energy as per the page from above
  •   getting ready to accept the beam:
    •  close DG2 STP 1
    •  make sure the reference laser is out (check in the rolling status)
    •  confirm the target chamber is pumped down
    •  insert the Be window IN the beamline
    •  search H6 if not already searched
    •  remove SH6 OUT of the beamline
  •  beamline alignment
    •  ACR calls you to confirm beam is ready for alignment
    •  check 'MR1L3' mirror OUT (-6000) position (after XCS)
    •  insert YAG0 ([1] op.yag0.insert())
    •  confirm FEL beam is on scale "0"
    •  confirm the shape of the beam is round
    •  insert YAG1 ([1] op.yag1.insert())
    •  insert MR1L4 : check coating for photon energy
    •  confirm on yag0 that the beam is properly deflected on the scale "8 cm"
    •  remove YAG0
    •  remove all Si attenuators ([1] op.SiT(1))
    •  open the pulse picker ([1] op.pulse_picker("open"))
    •  fine tune the pitch of MR1L4 to center the beam on YAG1
    •  insert YAG3 ([1] op.yag3.insert())
    •  remove YAG1
    •  fine tune the pitch of MR1L4 to center the beam on YAG3
    •  log the mirror settings in our table here
  •  once they are done tunning