User:Jost sdu/sandbox
Spectrally encoded angular light scattering (SEALS)[1] is a laser-based concept for Light scattering form microscopic particles. SEALS encodes the entire, continuous light scattering profile of microscopic particles to the spectrum of a single laser pulse, utilising a one-to-one wavelength-to-angle mapping.
Background[edit]
The angular light scattering profile of microscopic particles significantly depends on their morphological parameters, such as size and shape. This dependency is widely used in state-of-the-art Flow cytometry methods for particle classification.
Principle of operation[edit]
High Throughput Implementation[edit]
When combined with Time stretch dispersive Fourier transform, SEALS facilities single-shot, high-throughput scattering measurements for real-time particle screening[2] .
Applications[edit]
See also[edit]
- Light scattering
- Flow cytometry
- Time-resolved spectroscopy
- Time stretch dispersive Fourier transform
- Time stretch analog-to-digital converter
- Serial time-encoded amplified microscopy
References[edit]
- ^ Adam, Jost; Mahjoubfar, Ata; Diebold, Eric D.; Buckley, Brandon W.; Jalali, Bahram (2013). "Spectrally encoded angular light scattering". Optics Express. 21 (23): 28960-28967. doi:10.1364/OE.21.028960.
- ^ Adam, Jost; Mahjoubfar, Ata; Diebold, Eric D.; Buckley, Brandon W.; Jalali, Bahram (2014). "Time-stretched spectrally encoded angular light scattering for high-throughput real-time diagnostics". SPIE Proceedings. 9129. doi:10.1117/12.2052463.
Category:Microscopy Category:Photonics Category:Optics Category:Cameras