• Two-step blazed axicon grating for efficient generation of optical bottle beams. • Uniform axial intensity modulation with the long interference range. • Highly efficient interference only by first-order diffracted beams. • Excellent agreement between theoretical analysis and experimental results. A two-step blazed axicon grating (TBAG) to generate an optical bottle quasi-Bessel beam (QBB) with high optical efficiency and uniform intensity modulation is reported. To overcome the limitations of optical bottle QBBs generated by conventional binary axicons, an optimized TBAG structure is designed to enable interference only between first-order diffracted beams with maximized diffraction efficiency. The optimized phase profile for the TBAG is applied in an optical imaging system incorporating a spatial light modulator, producing a high-quality optical bottle QBB over a long propagation length. The experimental results are in excellent agreement with the theoretical predictions, including the analytical calculation of the modulation period. The benefits of the TBAG configuration and its prospects in applications are discussed.
Moon et al. (Sat,) studied this question.