Abstract

Electrowetting lenses with record low power consumption (microwatts) have been demonstrated using high-quality parylene AF-4 dielectric layers and large dodecyl sulfate ions. Water and propylene glycol are interchanged as the polar liquid to enable diverging and converging lens operation achievable with the application of 15 V. The optical quality of the lenses is comparable to conventional microlenses and the tuning exhibits very little ($<0.5°$) contact angle hysteresis.

© 2015 Optical Society of America

Fabrication and characterization of a two-dimensional individually addressable electrowetting microlens array

Samuel D. Gilinsky, Mo Zohrabi, Wei Yang Lim, Omkar D. Supekar, Victor M. Bright, and Juliet T. Gopinath
Opt. Express 31(19) 30550-30561 (2023)

Simulation of electrowetting lens and prism arrays for wavefront compensation

Juliet T. Gopinath, Victor M. Bright, Carol C. Cogswell, Robert D. Niederriter, Alexander Watson, Ramzi Zahreddine, and Robert H. Cormack
Appl. Opt. 51(27) 6618-6623 (2012)

Adaptive electrowetting lens-prism element

Soraya Terrab, Alexander M. Watson, Christopher Roath, Juliet T. Gopinath, and Victor M. Bright
Opt. Express 23(20) 25838-25845 (2015)

Electrowetting lenses for compensating phase and curvature distortion in arrayed laser systems

Robert D. Niederriter, Alexander M. Watson, Ramzi N. Zahreddine, Carol J. Cogswell, Robert H. Cormack, Victor M. Bright, and Juliet T. Gopinath
Appl. Opt. 52(14) 3172-3177 (2013)

Design and fabrication of a focus-tunable liquid cylindrical lens based on electrowetting

Danyang Wang, Degang Hu, Yanwu Zhou, and Licun Sun
Opt. Express 30(26) 47430-47439 (2022)