Light Refraction Imaging to Measure Liquid Volume
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University of Pittsburgh researchers have developed an innovative method for space-time imaging of vectorial properties below the diffraction limit of light, potentially enabling deep sub-diffraction limited resolution imaging at the atomic scale. The space-time imaging technology developed by University of Pittsburgh researchers offers several remarkable advantages. University of Pittsburgh researchers have developed an innovative method for space-time imaging of vectorial properties below the diffraction limit of light, potentially enabling deep sub-diffraction limited resolution imaging at the atomic scale.
Contrast-enhanced molecular imaging. High-efficiency coatings and acoustic-matching media reduce energy losses, while the reflective shell improves signal‐to‐noise ratio and imaging depth without added external optics. The present invention is a novel device that can enhance the effective intensity and diffusivity of a light source to illuminate a target imaging area at depth.
University of Pittsburgh researchers have developed a novel device and method for focusing and measuring biological tissue shear vibration.
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- 7Diagnostic Imaging
- 4Other Life Science Research Tool
- 3Other Engineering Technology
- 2Material Science
- 2Sensor
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- 2Kang Kim
- 1Hrvoje Petek
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- 2Bioengineering
- 1Mellon Professorship
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- 2Kang Kim
- 1Atreyie Ghosh Ms
- 1Chen-Bin Huang
- 1Hrvoje Petek
- 1John M. Cormack
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