Cedric Noordam scite author profile

Cedric Noordam

2Publications

30Citation Statements Received

69Citation Statements Given

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Affiliations

Washington University in St. Louis, Optical Sciences (United States), University of Twente

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Bessel-beam Grueneisen relaxation photoacoustic microscopy with extended depth of field

et al. 2015

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The short focal depth of a Gaussian beam limits the volumetric imaging speed of optical resolution photoacoustic microscopy (OR-PAM). A Bessel beam, which is diffraction free, provides a long focal depth, but its side lobes deteriorate image quality when the Bessel beam is directly employed to excite photoacoustic (PA) signals in OR-PAM. We present a nonlinear approach based on the Grueneisen relaxation effect to suppress the side-lobe artifacts in PA imaging. This method extends the focal depth of OR-PAM and speeds up volumetric imaging. We experimentally demonstrated a 1-mm focal depth with a 7-μm lateral resolution and volumetrically imaged a carbon fiber and red blood cell samples.

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Bessel beam Grueneisen photoacoustic microscopy with extended depth of field

Shi

Wang

Noordam

2016

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The short focal depth of a Gaussian beam limits the volumetric imaging speed of optical resolution photoacoustic microscopy (OR-PAM). A Bessel beam, which is diffraction-free, provides a long focal depth, but its side-lobes may deteriorate image quality when the Bessel beam is directly employed to excite photoacoustic signals in OR-PAM. Here, we present a nonlinear approach based on the Grueneisen relaxation effect to suppress the side-lobe artifacts in photoacoustic imaging. This method extends the focal depth of OR-PAM and speeds up volumetric imaging. We experimentally demonstrated a 1-mm focal depth with a 7-μm lateral resolution and volumetrically imaged a carbon fiber and red blood cell samples.

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Cedric Noordam

Bessel-beam Grueneisen relaxation photoacoustic microscopy with extended depth of field

Bessel beam Grueneisen photoacoustic microscopy with extended depth of field

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