We study the impact of phase errors between channels on the beam-combining efficiency in a coherent beam-combining system. A tiled aperture beam-combining system with various output channel numbers ranging from 3 to 37 was experimentally implemented using a spatial light modulator and related optics. We then examined how the beam-combining efficiency changes when applying phase differences between channels for various output beam configurations. A Gaussian random phase was applied to each channel for 500 samples, and the intensity variation of the central part of the combined beam was monitored to examine the beam-combining characteristics in the presence of phase error. The experimental results show that as the standard deviation value of the phase distribution increases, the combined beam efficiency rapidly decreases for a given channel number. Furthermore, the beam-combining efficiency becomes more sensitive to phase errors as the number of combined channels increases. The beam-combining efficiency was maintained at 95% or higher when the phase error between channels was below 0.03λ. A numerical simulation was also conducted for the same output beam configuration, which agrees well with the results obtained from the experiment.
This work was supported by the Defense Acquisition Program Administration (UD210019ID) and by the Ministry of Science and ICT (NRF-2023R1A2C1004758) of the Republic of Korea.
