Abstract
Focusing light inside highly scattering media is a challenging task in biomedical optical imaging, manipulation, and therapy. A recent invention has overcome this challenge by time reversing ultrasonically encoded diffuse light to an ultrasound-modulated volume inside a turbid medium. In this technique, a photorefractive (PR) crystal or polymer can be used as the phase conjugate mirror for optical time reversal. Accordingly, a relatively long ultrasound burst, whose duration matches the PR response time of the PR material, is usually used to encode the diffuse light. This long burst results in poor focusing resolution along the acoustic axis. In this work, we propose to use two intersecting ultrasound beams, emitted from two ultrasonic transducers at different frequencies, to modulate the diffuse light at the beat frequency within the intersection volume. We show that the time reversal of the light encoded at the beat frequency can converge back to the intersection volume. Experimentally, an acoustic axial resolution of ~1.1 mm was demonstrated inside turbid media, agreeing with theoretical estimation.
Highlights
Focusing light inside highly scattering media is a challenging task in biomedical optical imaging, manipulation, and therapy
The ultrasonically encoded light is collected to interfere with a reference beam and form a stationary interferogram inside a holographic material. This material serves as a phase conjugation mirror (PCM) when a reading beam traveling along the direction opposite to that of the reference beam reads out the hologram from the material
We propose to utilize two intersecting ultrasound beams emitted from two ultrasonic transducers to improve the time-reversed ultrasonically encoded (TRUE) optical focusing resolution
Summary
Focusing light inside highly scattering media is a challenging task in biomedical optical imaging, manipulation, and therapy. We propose to utilize two intersecting ultrasound beams emitted from two ultrasonic transducers to improve the TRUE optical focusing resolution. Recording the hologram based on the beat frequency-encoded photons and reading this hologram yields optical focusing to a shrunken volume, and an improved spatial resolution.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
