LIST Command

LIST  m [#]  mult [1]

m = 0

No action.

m = 1

Write h,k,l, F_o, F_c and phase (in degrees) to .fcf in XPLOR format. Only unique reflections after removing systematic absences, scaling [to an absolute scale of F(calc)], applying dispersion and extinction or SWAT corrections (if any), and merging equivalents including Friedel opposites are included. If F_o² was negative, F(obs) is set to zero. Reflections suppressed by OMIT or SHEL [or reserved for R(free)] are not included.

m = 2

Write h,k,l, F_o, sigma(F_o) and phase angle in degrees in FORMAT(3I4,2F8.2,I4) for the reflection list as defined for m = 1.

m = 3

Write h,k,l, F_o, sigma(F_o), A(real) and B(imag) in FORMAT(3I4,4F8.2), the reflections being processed exactly as for m = 1.

m = 4

Write h,k,l, F_c², F_o², sigma(F_o²) and a one-character status flag. F_o² are scaled to F_c² and possibly corrected for extinction, but no corrections have been made for dispersion and no further merging has been performed. FORMAT(3I4,2F12.2,F10.2,1X,A1) is employed. The status flag is 'o' (observed), 'x' [observed but suppressed using OMIT h k l, SHEL or reserved for R(free)], or '<' (F_o² is less than t*sigma(F_o²), where t is one half of the F-threshold s specified on an OMIT instruction).

m = 5

Write h,k,l, F_o, F_c, and phase in degrees in FORMAT(3I4,2F10.2,F7.2) for the reflection list as defined for m = 1. Like the m = 1 option, this is intended for input to standard macromolecular FFT programs (such as W. Furey's PHASES program), thereby providing a route to a graphical display of the electron density.

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