Add to ORKGPhase distortions due to scattering in random media restrict optical focusing beyond one transport mean free path. However, scattering can be compensated for by applying a correction to the illumination wavefront using spatial light modulators. One method of obtaining the wavefront correction is by iterative determination using an optimization algorithm. In the past, obtaining a feedback signal required either direct optical access to the target region, or invasive embedding of molecular probes within the random media. Here, we propose using ultrasonically encoded light as feedback to guide the optimization dynamically and non-invasively. In our proof-of-principle demonstration, diffuse light was refocused to the ultrasound focal zone, with...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
Focusing light through turbid media represents a highly fascinating challenge in modern biophotonics...
We focused light into a scattering medium using a spatial light modulator, increasing the optical in...
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...
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 ...
A novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enabl...
Controllable light delivery to the region of interest is essential to biomedical optical imaging met...
A novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enabl...
Controllable light delivery to the region of interest is essential to biomedical optical imaging met...
In turbid media such as biological tissue, multiple scattering hinders direct light focusing at dept...
Non-invasively focusing light into strongly scattering media, such as biological tissue, is highly d...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
Focusing light through turbid media represents a highly fascinating challenge in modern biophotonics...
We focused light into a scattering medium using a spatial light modulator, increasing the optical in...
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...
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 ...
A novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enabl...
Controllable light delivery to the region of interest is essential to biomedical optical imaging met...
A novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enabl...
Controllable light delivery to the region of interest is essential to biomedical optical imaging met...
In turbid media such as biological tissue, multiple scattering hinders direct light focusing at dept...
Non-invasively focusing light into strongly scattering media, such as biological tissue, is highly d...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
Focusing light through turbid media represents a highly fascinating challenge in modern biophotonics...
We focused light into a scattering medium using a spatial light modulator, increasing the optical in...