Optical detection of ultrasound for photoacoustic imaging provides large bandwidth and high sensitivity at high acoustic frequencies. Higher spatial resolutions can therefore be achieved using Fabry-Pérot cavity sensors, as compared to conventional piezoelectric detection. However, fabrication constraints during deposition of the sensing polymer layer require a precise control of the interrogation beam wavelength to provide optimal sensitivity. This is commonly achieved by employing slowly tunable narrowband lasers as interrogation sources, hence limiting the acquisition speed. We propose instead to use a broadband source and a fast tunable acousto-optic filter to adjust the interrogation wavelength at each pixel within a few microseconds. ...
Photoacoustic imaging (PAI) is an emerging method for biomedical and medical applications. In PAI, i...
We describe a novel optical acoustic detector based on a bias-controlled fiber Fabry-Perot interfero...
Advances in fabrication of high-finesse optical resonators hold promise for the development of minia...
Optical detection of ultrasound for photoacoustic imaging provides large bandwidth and high sensitiv...
Optical-resolution photoacoustic microscopy (PAM) has been shown to enable the acquisition of high r...
Better image resolution would expand the frontiers of ultrasound for both clinical diagnostics and m...
Photoacoustics allows imaging with optical contrast deep in biological tissues. The signal strength ...
Deep-tissue applications (>1cm) for photoacoustic imaging require high-sensitivity ultrasound transd...
Fabry-Pérot (FP) sensors have enabled high resolution 3D photoacoustic (PA) imaging in backward mode...
Fabry-Perot scanners are typically read out in a sequential manner. To speed up the image acquisitio...
A system for dynamic mapping of broadband ultrasound fields has been designed, with high frame rate ...
Optical detection of ultrasound is a promising technique for high frequency imaging arrays. Detectio...
ABSTRACT: We demonstrate an ultrasonic detector with unprecedented broad bandwidth and high sensitiv...
We demonstrate an ultrasonic detector with unprecedented broad bandwidth and high sensitivity, based...
Photoacoustic imaging (PAI) is a noninvasive biomedical imaging technology capable of multiscale ima...
Photoacoustic imaging (PAI) is an emerging method for biomedical and medical applications. In PAI, i...
We describe a novel optical acoustic detector based on a bias-controlled fiber Fabry-Perot interfero...
Advances in fabrication of high-finesse optical resonators hold promise for the development of minia...
Optical detection of ultrasound for photoacoustic imaging provides large bandwidth and high sensitiv...
Optical-resolution photoacoustic microscopy (PAM) has been shown to enable the acquisition of high r...
Better image resolution would expand the frontiers of ultrasound for both clinical diagnostics and m...
Photoacoustics allows imaging with optical contrast deep in biological tissues. The signal strength ...
Deep-tissue applications (>1cm) for photoacoustic imaging require high-sensitivity ultrasound transd...
Fabry-Pérot (FP) sensors have enabled high resolution 3D photoacoustic (PA) imaging in backward mode...
Fabry-Perot scanners are typically read out in a sequential manner. To speed up the image acquisitio...
A system for dynamic mapping of broadband ultrasound fields has been designed, with high frame rate ...
Optical detection of ultrasound is a promising technique for high frequency imaging arrays. Detectio...
ABSTRACT: We demonstrate an ultrasonic detector with unprecedented broad bandwidth and high sensitiv...
We demonstrate an ultrasonic detector with unprecedented broad bandwidth and high sensitivity, based...
Photoacoustic imaging (PAI) is a noninvasive biomedical imaging technology capable of multiscale ima...
Photoacoustic imaging (PAI) is an emerging method for biomedical and medical applications. In PAI, i...
We describe a novel optical acoustic detector based on a bias-controlled fiber Fabry-Perot interfero...
Advances in fabrication of high-finesse optical resonators hold promise for the development of minia...
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