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Related Concept Videos

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Fluid Mosaic Model

The fluid mosaic model was first proposed as a visual representation of research observations. The model comprises the composition and dynamics of membranes and serves as a foundation for future membrane-related studies. The model depicts the structure of the plasma membrane with a variety of components, which include phospholipids, proteins, and carbohydrates. These integral molecules are loosely bound, defining the cell’s border and providing fluidity for optimal function.LipidsThe most...
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Related Experiment Video

Updated: Jun 23, 2026

Preparation of Liquid Crystal Networks for Macroscopic Oscillatory Motion Induced by Light
07:56

Preparation of Liquid Crystal Networks for Macroscopic Oscillatory Motion Induced by Light

Published on: September 20, 2017

Modal liquid crystal wavefront corrector.

S Kotova, M Kvashnin, M Rakhmatulin

    Optics Express
    |May 20, 2009
    PubMed
    Summary
    This summary is machine-generated.

    This study presents a liquid crystal wavefront corrector for adaptive optics, functioning like a continuous mirror with electrically controllable influence functions. Experimental results demonstrate its capability in generating low-order aberrations.

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    Published on: October 31, 2019

    Related Experiment Videos

    Last Updated: Jun 23, 2026

    Preparation of Liquid Crystal Networks for Macroscopic Oscillatory Motion Induced by Light
    07:56

    Preparation of Liquid Crystal Networks for Macroscopic Oscillatory Motion Induced by Light

    Published on: September 20, 2017

    Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets
    06:26

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    Published on: May 15, 2017

    High-Contrast and Fast Photorheological Switching of a Twist-Bend Nematic Liquid Crystal
    06:24

    High-Contrast and Fast Photorheological Switching of a Twist-Bend Nematic Liquid Crystal

    Published on: October 31, 2019

    Area of Science:

    • Optics
    • Adaptive Optics
    • Liquid Crystal Devices

    Background:

    • Adaptive optics systems require precise wavefront correction.
    • Traditional deformable mirrors have limitations in control and form factor.

    Purpose of the Study:

    • To characterize a novel liquid crystal wavefront corrector.
    • To evaluate its performance in generating aberrations for adaptive optics.

    Main Methods:

    • Modal addressing for device control.
    • Electrical control over influence function width and shape.
    • Optical property measurements.
    • Experimental aberration generation.

    Main Results:

    • The liquid crystal device mimics a continuous facesheet deformable mirror.
    • Electrically tunable influence functions were achieved.
    • Low-order aberrations were successfully generated and characterized.

    Conclusions:

    • Liquid crystal wavefront correctors offer a viable alternative for adaptive optics.
    • Controllable influence functions enhance device versatility.
    • The device shows promise for aberration correction applications.