Choice of oscillation range

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The choice of oscillation range reflects a compromise between conflicting targets - in order of importance:

  1. preventing reflection overlap at high resolution (see table at end of IDXREF.LP) - lower oscillation range is better
  2. optimizing the signal-to-noise ratio - lower oscillation range is better (but see below)
  3. minimizing the readout noise (should be 2-10 counts per pixel for CCD, and 0 for pixel array detectors) - larger oscillation range is better
  4. minimizing the disk space - larger oscillation range is better
  5. minimizing the readout time - larger oscillation range is better

The following aspects need to be considered when choosing the oscillation range:

  1. crystal mosaicity: choosing the oscillation range less than (crystal mosaicity / 2) will not further increase the signal-to-noise ratio - see Müller et al (2012) Acta Cryst. D68, 42 ([open access http://scripts.iucr.org/cgi-bin/paper?S0907444911049833])
  2. the maximum oscillation range to prevent angular overlap can be calculated from cell parameters and crystal orientation, and the mosaicity. Specifically, the mosaicity must be subtracted from the value given in the table at the end of IDXREF.LP (if the mosaicity is bigger than the table value, of course a positive value for the oscillation range must be chosen, but there will then be overlaps).

A reasonable default value for crystals that diffract to 2A resolution or less, have a mosaicity of 0.3° or less and longest (primitive!) unit cell axis of 150A or less is, in my opinion:

  • around 0.25-0.5° for CCD detectors
  • around 0.1° for the Pilatus detector