Add to ORKGTo achieve localized light delivery beyond turbid layers, TRUE optical focusing has been previously implemented by both analog and digital devices. The digital scheme offers a higher energy gain than the analog version. In many biological applications, the reflection-mode configuration, which uses backscattered light from the sample, is more suitable than the transmission-mode configuration. Although reflection-mode analog TRUE focusing has been demonstrated, its digital implementation has not been explored. Here, we report a reflection-mode digital TRUE focusing to concentrate light through a turbid layer. Further, by simply moving the ultrasound focus, we show the system's dynamic focusing capability
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...
To achieve localized light delivery beyond turbid layers, TRUE optical focusing has been previously ...
Time-reversed ultrasonically encoded (TRUE) optical focusing was recently proposed to deliver light ...
Time-reversed ultrasonically encoded (TRUE) optical focusing was recently proposed to deliver light ...
Time-reversed ultrasonically encoded (TRUE) optical focusing in turbid media was previously implemen...
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...
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...
Focusing light inside highly scattering media beyond the ballistic regime is a challenging task in b...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
In turbid media such as biological tissue, multiple scattering hinders direct light focusing at dept...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...
To achieve localized light delivery beyond turbid layers, TRUE optical focusing has been previously ...
Time-reversed ultrasonically encoded (TRUE) optical focusing was recently proposed to deliver light ...
Time-reversed ultrasonically encoded (TRUE) optical focusing was recently proposed to deliver light ...
Time-reversed ultrasonically encoded (TRUE) optical focusing in turbid media was previously implemen...
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...
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...
Focusing light inside highly scattering media beyond the ballistic regime is a challenging task in b...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
In turbid media such as biological tissue, multiple scattering hinders direct light focusing at dept...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...