Add to ORKGTime-reversed ultrasonically encoded (TRUE) optical focusing in turbid media was previously implemented using both analog and digital phase conjugation. The digital approach, in addition to its large energy gain, can improve the focal intensity and resolution by iterative focusing. However, performing iterative focusing at each focal position can be time-consuming. Here, we show that by gradually moving the focal position, the TRUE focal intensity is improved, as in iterative focusing at a fixed position, and can be continuously scanned to image fluorescent targets in a shorter time. In addition, our setup is, to the best of our knowledge, the first demonstration of TRUE focusing using a digital phase conjugate mirror in a reflection mode, ...
The Time-Reversed Ultrasound-Encoded (TRUE) light technique enables noninvasive focusing deep inside...
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...
To achieve localized light delivery beyond turbid layers, TRUE optical focusing has been previously ...
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 ...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...
A technique to rapidly scan an optical focus inside a turbid medium is attractive for various biomed...
A technique to rapidly scan an optical focus inside a turbid medium is attractive for various biomed...
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...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
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 tissues, light undergoes multiple scattering. Consequently, it is...
Focusing light inside highly scattering media beyond the ballistic regime is a challenging task in b...
To achieve localized light delivery beyond turbid layers, TRUE optical focusing has been previously ...
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 ...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...
To focus light beyond one transport mean free path, time-reversed ultrasonically encoded (TRUE) opti...
A technique to rapidly scan an optical focus inside a turbid medium is attractive for various biomed...
A technique to rapidly scan an optical focus inside a turbid medium is attractive for various biomed...
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...
In turbid media such as biological tissues, light undergoes multiple scattering. Consequently, it is...
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 tissues, light undergoes multiple scattering. Consequently, it is...
Focusing light inside highly scattering media beyond the ballistic regime is a challenging task in b...