Add to ORKGAll-optical imaging has high contrast but poor spatial resolution beyond the ballistic and quasiballistic regimes. All-ultrasonic imaging has high spatial resolution but poor contrast for early stage tumors. Photoacoustic tomography combines the high optical contrast and the high ultrasonic resolution. Our work in this emerging area of research will be summarized in this invited talk. In this technology, a diffraction-based inverse-source problem is solved in the image reconstruction, for which our group developed the rigorous reconstruction theory. We developed a prototype and accomplished noninvasive transdermal and transcranial functional imaging of small-animal brains in vivo
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
Optical microscopy has been contributing to the development of life science for more than three cent...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...
All-optical imaging has high contrast but poor spatial resolution beyond the ballistic and quasiball...
Optical contrast is sensitive to functional parameters, including the oxygen saturation and total co...
Optical contrast is sensitive to physiological parameters, such as the oxygen saturation and total c...
The field of photoacoustic tomography has experienced considerable growth in the past few years. Alt...
Existing high-resolution 3D optical imaging cannot provide penetration into biological tissues beyon...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
Recently, the field of photoacoustic tomography has experienced considerable growth. Although severa...
Photoacoustic imaging (also called optoacoustic or thermoacoustic imaging) has the potential to imag...
By converting light waves into sound, researchers have developed a high-resolution biological imagin...
Commercially available high-resolution three-dimensional optical imaging modalities—including confoc...
Photoacoustic tomography has captured a significant amount of attention recently. Although several c...
Photoacoustic tomography (PAT) can create multiscale multicontrast images of living biological struc...
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
Optical microscopy has been contributing to the development of life science for more than three cent...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...
All-optical imaging has high contrast but poor spatial resolution beyond the ballistic and quasiball...
Optical contrast is sensitive to functional parameters, including the oxygen saturation and total co...
Optical contrast is sensitive to physiological parameters, such as the oxygen saturation and total c...
The field of photoacoustic tomography has experienced considerable growth in the past few years. Alt...
Existing high-resolution 3D optical imaging cannot provide penetration into biological tissues beyon...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
Recently, the field of photoacoustic tomography has experienced considerable growth. Although severa...
Photoacoustic imaging (also called optoacoustic or thermoacoustic imaging) has the potential to imag...
By converting light waves into sound, researchers have developed a high-resolution biological imagin...
Commercially available high-resolution three-dimensional optical imaging modalities—including confoc...
Photoacoustic tomography has captured a significant amount of attention recently. Although several c...
Photoacoustic tomography (PAT) can create multiscale multicontrast images of living biological struc...
High-resolution volumetric optical imaging modalities, such as confocal microscopy, two-photon micr...
Optical microscopy has been contributing to the development of life science for more than three cent...
Photoacoustic tomography (PAT) is probably the fastest-growing area of biomedical imaging technology...