Add to ORKGWe focused light into a scattering medium using a spatial light modulator, increasing the optical intensity at the target by 11x. The phase pattern was obtained using a genetic algorithm, with ultrasonically-encoded light as feedback
Propagation of light through scattering media such as ground glass or biological tissue limits the q...
Propagation of light through scattering media such as ground glass or biological tissue limits the q...
Light propagation in turbid media, such as biological tissues, experience scattering due to inhomoge...
We focused light into a scattering medium using a spatial light modulator, increasing the optical in...
Wavefront distortion in scattering media can be compensated for using optical wavefront shaping. In ...
Wavefront distortion in scattering media can be compensated for using optical wavefront shaping. In ...
Traditional optical devices rely on light propagation along a straight path. However, when the light...
Traditional optical devices rely on light propagation along a straight path. However, when the light...
Traditional optical devices rely on light propagation along a straight path. However, when the light...
A wavefront shaping technique with ultrasound-induced optical field perturbation is demonstrated, wh...
Phase distortions due to scattering in random media restrict optical focusing beyond one transport m...
Imaging through opaque, highly scattering walls is a long sought after capability with potential app...
Phase distortions due to scattering in random media restrict optical focusing beyond one transport m...
Phase distortions due to scattering in random media restrict optical focusing beyond one transport m...
Combining ultrasonic modulation and optical phase conjugation allows light to be tightly focused in ...
Propagation of light through scattering media such as ground glass or biological tissue limits the q...
Propagation of light through scattering media such as ground glass or biological tissue limits the q...
Light propagation in turbid media, such as biological tissues, experience scattering due to inhomoge...
We focused light into a scattering medium using a spatial light modulator, increasing the optical in...
Wavefront distortion in scattering media can be compensated for using optical wavefront shaping. In ...
Wavefront distortion in scattering media can be compensated for using optical wavefront shaping. In ...
Traditional optical devices rely on light propagation along a straight path. However, when the light...
Traditional optical devices rely on light propagation along a straight path. However, when the light...
Traditional optical devices rely on light propagation along a straight path. However, when the light...
A wavefront shaping technique with ultrasound-induced optical field perturbation is demonstrated, wh...
Phase distortions due to scattering in random media restrict optical focusing beyond one transport m...
Imaging through opaque, highly scattering walls is a long sought after capability with potential app...
Phase distortions due to scattering in random media restrict optical focusing beyond one transport m...
Phase distortions due to scattering in random media restrict optical focusing beyond one transport m...
Combining ultrasonic modulation and optical phase conjugation allows light to be tightly focused in ...
Propagation of light through scattering media such as ground glass or biological tissue limits the q...
Propagation of light through scattering media such as ground glass or biological tissue limits the q...
Light propagation in turbid media, such as biological tissues, experience scattering due to inhomoge...