A charge-flipping algorithm incorporating the tangent formula for solving difficult structures

The `charge-flipping' method proposed by Oszlanyi & Sutő [Acta Cryst. (2004), A60, 134–141] has been extended to include the direct-methods tangent formula within the iterative process. The tangent formula acts as a corrective influence allowing for solutions at resolutions poorer than 1 A. The resulting algorithm solves difficult structures in minutes rather than days or not at all. Modifications include (i) flipping a percentage of charge rather than charge below a threshold value and critically (ii) dampening the magnitude of charge above the threshold; this impedes tangent-formula solutions comprising one or two very intense peaks in the electron density which is commonly known as the `uranium atom solution'. For data at poor resolution, an alternate charge-flipping regime avoids uranium atom solutions by truncating electron-density pixels that are greater than half the maximum value.