perfusion
perfusion
Showing the single result
-
Laser Speckle Imaging Systems - RWDRFLSI-ZW Laser Speckle Contrast Imaging System
RFLSI-ZW laser speckle imaging system is an even better tool for microcirculation research based on laser speckle contrast imaging technology (LSCI).
With the advanced optical design and improved image processing algorithm, RFLSI-ZW shows greater performance in imaging field size, image quality, full-field frame rate and optical resolution, and provides a powerful and efficient means for human and animal tissue microcirculation measurement.
-
Laser Speckle Imaging Systems - RWD
RFLSI-ZW Laser Speckle Contrast Imaging System
RFLSI-ZW laser speckle imaging system is an even better tool for microcirculation research based on laser speckle contrast imaging technology (LSCI).
With the advanced optical design and improved image processing algorithm, RFLSI-ZW shows greater performance in imaging field size, image quality, full-field frame rate and optical resolution, and provides a powerful and efficient means for human and animal tissue microcirculation measurement.SKU: RFLSI Ⅲ-1
-
Laser Speckle Imaging Systems - RWD
RFLSI-ZW Laser Speckle Contrast Imaging System
RFLSI-ZW laser speckle imaging system is an even better tool for microcirculation research based on laser speckle contrast imaging technology (LSCI).
With the advanced optical design and improved image processing algorithm, RFLSI-ZW shows greater performance in imaging field size, image quality, full-field frame rate and optical resolution, and provides a powerful and efficient means for human and animal tissue microcirculation measurement.
Related News
7th July 2023
Kent Scientific Scholarship Opportunity
26th June 2023
Advancing Brain Research through Physiology Measures, fNIRS, and VR
26th May 2023
New Distribution Agreement with TMSi
18th January 2023
Seenel Imaging and BIOPAC Systems, Inc. Announce a Global Partnership