Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution imaging deep into biological tissue
We show that it is possible to obtain high optical contrast photoacoustic images of tissue with 0.55...
We show that it is possible to obtain high optical contrast photoacoustic images of tissue with 0.55...
Commercially available high-resolution three-dimensional optical imaging modalities—including confoc...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
Existing high-resolution 3D optical imaging cannot provide penetration into biological tissues beyon...
Existing high-resolution 3D optical imaging cannot provide penetration into biological tissues beyon...
By converting light waves into sound, researchers have developed a high-resolution biological imagin...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...
The field of photoacoustic tomography has experienced considerable growth in the past few years. Alt...
The field of photoacoustic tomography has experienced considerable growth in the past few years. Alt...
We show that it is possible to obtain high optical contrast photoacoustic images of tissue with 0.55...
We show that it is possible to obtain high optical contrast photoacoustic images of tissue with 0.55...
Commercially available high-resolution three-dimensional optical imaging modalities—including confoc...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
Existing high-resolution 3D optical imaging cannot provide penetration into biological tissues beyon...
Existing high-resolution 3D optical imaging cannot provide penetration into biological tissues beyon...
By converting light waves into sound, researchers have developed a high-resolution biological imagin...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...
The field of photoacoustic tomography has experienced considerable growth in the past few years. Alt...
The field of photoacoustic tomography has experienced considerable growth in the past few years. Alt...
We show that it is possible to obtain high optical contrast photoacoustic images of tissue with 0.55...
We show that it is possible to obtain high optical contrast photoacoustic images of tissue with 0.55...
Commercially available high-resolution three-dimensional optical imaging modalities—including confoc...
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