Add to ORKGA novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enable optical imaging, manipulation, and therapy at greater depths
I will discuss our recent work on the use of digital optical phase conjugation and ultrasound taggin...
Focusing light deep inside living tissue has not been achieved despite its promise to play a central...
Noninvasive light focusing deep inside living biological tissue has long been a goal in biomedical o...
A novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enabl...
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...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
In turbid media such as biological tissue, multiple scattering hinders direct light focusing at dept...
We report an experimental investigation of time-reversed ultrasonically encoded optical focusing in ...
Scattering dominates light propagation in biological tissue, and therefore restricts both resolution...
Scattering dominates light propagation in biological tissue, and therefore restricts both resolution...
Scattering dominates light propagation in biological tissue, and therefore restricts both resolution...
The problem of how to effectively deliver light dynamically to a small volume inside turbid media ha...
The problem of how to effectively deliver light dynamically to a small volume inside turbid media ha...
I will discuss our recent work on the use of digital optical phase conjugation and ultrasound taggin...
I will discuss our recent work on the use of digital optical phase conjugation and ultrasound taggin...
Focusing light deep inside living tissue has not been achieved despite its promise to play a central...
Noninvasive light focusing deep inside living biological tissue has long been a goal in biomedical o...
A novel technique uses ultrasonic encoding and time reversal to break the diffusion limit and enabl...
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...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
In turbid media such as biological tissue, multiple scattering hinders direct light focusing at dept...
We report an experimental investigation of time-reversed ultrasonically encoded optical focusing in ...
Scattering dominates light propagation in biological tissue, and therefore restricts both resolution...
Scattering dominates light propagation in biological tissue, and therefore restricts both resolution...
Scattering dominates light propagation in biological tissue, and therefore restricts both resolution...
The problem of how to effectively deliver light dynamically to a small volume inside turbid media ha...
The problem of how to effectively deliver light dynamically to a small volume inside turbid media ha...
I will discuss our recent work on the use of digital optical phase conjugation and ultrasound taggin...
I will discuss our recent work on the use of digital optical phase conjugation and ultrasound taggin...
Focusing light deep inside living tissue has not been achieved despite its promise to play a central...
Noninvasive light focusing deep inside living biological tissue has long been a goal in biomedical o...