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An optical beam with an e(i/phi) phase structure carries an orbital angular momentum of lh per photon. For integer l values, the phase fronts of such beams form perfect helices with a single screw-phase dislocation, or vortex, on the beam axis. For non-integer l values, Berry ( 2004 J. Opt. A: Pure Appl. Opt. 6 259) predicts a complex-phase structure comprising many vortices at differing positions within the beam cross- section. Using a spatial light modulator we produce e(i/phi) beams with varying l. We examine the phase structure of such beams after propagation through an interference-based phase- measurement technique. As predicted, we observe that for half- integer l values, a line of alternating charge vortices is formed near the radial dislocation.
Leach et al. (Tue,) studied this question.