In this work we will present two techniques for the measurement of superimposed higher-order Bessel beams. In the first technique we will outline a simple approach using only a spatial light modulator and a Fourier transforming lens to decompose the OAM spectrum of an optical field. We test this approach on symmetric and non-symmetric superpositions of non-diffracting higher-order Bessel beams. Our second procedure consists of two refractive optical elements which perform a Cartesian to log-polar coordinate transformation, translating helically phased beams into a transverse phase gradient. By introducing two cylindrical lenses we can focus each of the azimuthal modes associated with each Bessel beam to a different lateral position in the Fourier plane, while separating the radial wave-vectors in the image-plane.
Reference:
Dudley, A.L., Mhlanga, T, McDonald, A, Roux, F.S, Lavery, M, Padgett, M and Forbes, A. 2013. Techniques to sort Bessel beams. In: Proceedings of SPIE 8843, Laser Beam Shaping XIV, San Diego, USA, 28 September 2013
Dudley, A. L., Mhlanga, T., McDonald, A., Roux, F., Lavery, M., Padgett, M., & Forbes, A. (2013). Techniques to sort Bessel beams. SPIE Proceedings. http://hdl.handle.net/10204/7555
Dudley, Angela L, T Mhlanga, A McDonald, FS Roux, M Lavery, M Padgett, and A Forbes. "Techniques to sort Bessel beams." (2013): http://hdl.handle.net/10204/7555
Dudley AL, Mhlanga T, McDonald A, Roux F, Lavery M, Padgett M, et al, Techniques to sort Bessel beams; SPIE Proceedings; 2013. http://hdl.handle.net/10204/7555 .
