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Docket #: S15-038

Tetrapod Phase Mask Microscopy

Stanford researchers at the Moerner Lab have designed a family of point spread functions (PSFs), the Tetrapod PSFs, for high precision three-dimensional position measurement of individual particle positions over a large, customizable depth range in optical microscopy. These designs have a tunable depth range up to an unprecedented 20 ?m, which is over 7x larger than current state of the art.

As proof-of-concept, the team performed flow profiling in a microfluidic channel and showed scan-free tracking of single quantum-dot-labeled phospholipid molecules on the surface of living, thick mammalian cells. This invention is primarily aimed at researchers in the life sciences.

Figure

Phase Mask can be simply implemented with a tilted light-sheet microscope (LSM)

Stage of Research

  • Proof of concept Demonstrated experimentally the applicability of these Tetrapod PSFs in micro-fluidic flow profiling over a 20um z range, and in tracking under noisy biological conditions.

    • Applications

    • Thick tissue super-resolution microscopy:
      • Sub-wavelength imaging
      • Simultaneous multiple particle tracking
    • Microfluidics - flow profiling
    • Simple, tunable depth of field microscopy
    • Bio-film (thick sample) imaging
    • Background reduction – light sheet microscopy
    • Microscope calibration (for depth induced aberrations)

    Advantages

    • New phase masks with extremely large depth range up to 20?m (about 7 times larger than current state of the art)
    • Allow simple z range tunability
    • Easily tailored and optimized to a required depth range.
    • Simple implementation with a tilted light-sheet microscope (LSM)

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