Q value

A given q value (momentum transfer in reciprocal-space) corresponds to a real-space distance (d) of:

q={\frac {2\pi }{d}}

Thus, from a peak position in scattering, one can calculate the realspace repeat-structure distance:

d={\frac {2\pi }{q}}

One must be careful, however. A peak in reciprocal-space corresponds to a repeating structure in the realspace lattice; i.e. this may or may not correspond directly to particle-particle spacings.

Lookup table

q	d		q	d		q	d		q	d
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm
0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm		0.0 Å⁻¹	0.0 nm

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