I. Jong Kim scite author profile

We propose a model predictive control (MPC) 1 method to compensate for the time-varying phase aberrations 2 in a sensorless adaptive optics (AO) system. The approximate 3 model for the point spread function (PSF) of the imaging system 4 with phase diversity is mathematically derived, and its validity 5 is verified. The proposed MPC, which considers the operating 6 limits of the deformable mirror (DM), computes the optimal 7 applied voltage of each actuator over a prediction horizon, and 8 the receding horizon scheme is applied as feedback control. 9 Numerical case studies with the time-varying phase aberrations 10 generated by an atmospheric turbulence simulator are presented 11 to demonstrate the correction performance of the MPC strat-12 egy. The proposed method caused a 50% improvement in the 13 reduction in residual aberration, making it competitive with a 14 saturation linear quadratic regulator (LQR). The computational 15 feasibility of the proposed method is validated using fast MPC, 16 which approximates the primal barrier method. 17 Index Terms-Model identification, model predictive control 18 (MPC), phase diversity, phase retrieval method, point spread 19 function (PSF), sensorless adaptive optics (AO). 20 I. INTRODUCTION 21 A TMOSPHERIC turbulence or nonuniform refractive 22 index distribution of a specimen can cause optical aber-23 rations, which degrade the axial resolution and contrast of 24 the image and limit the depth of focus. To eliminate these 25 aberrations, adaptive optics (AO) has been introduced to 26 generate a conjugated wavefront corresponding to the opposite 27 component of the distorted wavefront. The AO system uses an 28 adaptive element, such as a deformable mirror (DM) or spatial 29 light modulator to correct aberrations and a control system that 30 generates a signal to drive the adaptive element.

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Generation of wavelength-tunable optical vortices using an off-axis spiral phase mirror: publisher’s note

Lee

Kim

Han

et al. 2021

Opt. Lett.

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Estimation and compensation of phase errors induced by axial bulk motion of a sample in wavelength-sweeping parallel Fourier domain OCT

et al. 2020

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We report a new, to the best of our knowledge, approach to correct image blurring due to the axial bulk motion of a sample in wavelength-sweeping Fourier domain parallel optical coherence tomography (OCT). This approach can estimate phase errors changing rapidly in time through direct measurements of the apparent axial shift during the sampling interval using common phase changes in parallel detection without additional hardware. To demonstrate the performance of the proposed algorithm, a single reflection and scattering sample were imaged with wavelength-sweeping parallel OCT implemented by scanning a spectrally dispersed line-field along the line direction. In addition, we quantitatively demonstrated that even a small axial movement of the sample could cause serious image blur at a high nonlinear degree of movement.

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I. Jong Kim

Bragg scattering from a millimeter-scale periodic structure with extremely small aspect ratios

Model Predictive Control of Time-Varying Aberrations for Sensorless Adaptive Optics

Generation of wavelength-tunable optical vortices using an off-axis spiral phase mirror: publisher’s note

Estimation and compensation of phase errors induced by axial bulk motion of a sample in wavelength-sweeping parallel Fourier domain OCT

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