Laser-written tunable liquid crystal aberration correctors

Journal article

In this Article, we present a series of novel laser-written liquid crystal (LC) devices for aberration control for applications in beam shaping or aberration correction through adaptive optics. Each transparent LC device can correct for a chosen aberration mode with continuous greyscale tuning up to a total magnitude of more than 2π radians phase difference peak to peak at a wavelength of λ = 660 nm. For the purpose of demonstration, we present five different devices for the correction of five independent Zernike polynomial modes (although the technique could readily be used to manufacture devices based on other modes). Each device is operated by a single electrode pair tuned between 0 and 10 V. These devices have potential as a low-cost alternative to spatial light modulators for applications where a low-order aberration correction is sufficient and transmissive geometries are required.

Authors: Xu, A; Nourshargh, C; Salter, PS; He, C; Elston, SJ

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: American Chemical Society
• Journal: ACS Photonics
• Volume: 10
• Issue: 9
• Pages: 3401–3408
• Publication date: 2023-08-25
• Acceptance date: 2023-08-10
• DOI: 10.1021/acsphotonics.3c00907
• EISSN: 2330-4022
• Language: English
• Keywords: spatial light modulator; Zernike polynomials; two-photon polymerization; optical aberrations; liquid crystals; laser writing