Nikon Instruments’ Post

IR VIVO from Photon etc. Using near- and shortwave-infrared, IR VIVO benefits from reduced scattering as well as minimal tissue absorption and auto-fluorescence. This allows deeper, clearer imaging than standard optical imaging. It takes advantage of the most recent developments in SWIR imaging. It combines Photon etc.’s InGaAs camera (Alizé 1.7 or ZephIR 1.7) with novel illumination and powerful analytical software.

IR VIVO from Photon etc. Using near- and shortwave-infrared, IR VIVO benefits from reduced scattering as well as minimal tissue absorption and auto-fluorescence. This allows deeper, clearer imaging than standard optical imaging. It takes advantage of the most recent developments in SWIR imaging. It combines Photon etc.’s InGaAs camera (Alizé 1.7 or ZephIR 1.7) with novel illumination and powerful analytical software.

last paper of the year is out now! #nanoparticles makes polymeric #scintillators shine to improve #Tof-PET imaging. Highly Luminous Scintillating Nanocomposites Enable Ultrafast Time Coincidence Resolution for γ-rays Detection with Heterostructured Multilayer Scintillators follow project #PRIN 2020 Sherpa and #PNRR Minerva https://lnkd.in/dNJUeUdj

BPU100 with advanced imaging technology: ● Anatomical M mode ● Auto measurement of intima-media thickness(IMT) ● PHI pulse inversion tissue harmonic imaging + frequency composite technology   Get better penetration and get a more detailed 2D image ● Speckle noise suppression technology   Eliminate two-dimensional image speckle noise and significantly improve image signal-to-noise ratio. ● Color Doppler enhancement technology   Effectively suppress color flow flash noise, improve blood flow resolution and sensitivity. ● Multi-beam parallel processing technology   Quadruple beam parallel processing to ensure good image resolution while increasing image refresh frame rate.. ● Support B, C, PW, CW modes, Duplex& Triplex ,Wide-angle Steer scanning imaging, Panoramic imaging.

BPU100 with advanced imaging technology: ● Anatomical M mode ● Auto measurement of intima-media thickness(IMT) ● PHI pulse inversion tissue harmonic imaging + frequency composite technology Get better penetration and get a more detailed 2D image ● Speckle noise suppression technology Eliminate two-dimensional image speckle noise and significantly improve image signal-to-noise ratio. ● Color Doppler enhancement technology Effectively suppress color flow flash noise, improve blood flow resolution and sensitivity. ● Multi-beam parallel processing technology Quadruple beam parallel processing to ensure good image resolution while increasing image refresh frame rate.. ● Support B, C, PW, CW modes, Duplex& Triplex ,Wide-angle Steer scanning imaging, Panoramic imaging.

Check out our work on "Quantitative phase microscopy by a glass microsphere and plate," introducing an interestingly simple arrangement for label-free high-contrast 3D optical imaging: https://lnkd.in/gXAGks-Q #Optics #Microscopy #superresolution #3dimaging #holography #Microsphere #Imaging #WashU #WUSTL #ImagingScience

In recent research from The University of Manchester, our Helios 5 Laser PFIB was used to explore fs-laser ablation parameters for 2D/3D imaging using tri-beam #microscopy. Read the study to learn how the latest findings can assist in achieving high-quality imaging across a wide range of materials. https://ter.li/voccra #MaterialsScience

Happy Flow Friday! Dive into this publication recently featured in “Cytometry Part A” which describes, for the first time, an approach to calibrate side scatter signals to extracellular vesicle particle size using imaging flow cytometers. https://hubs.la/Q030nV-30 #flowcytometry #imaging #cellanalysis

Thorlabs' new 15X Plan Apochromat VIS+ Microscope Objective provides axial color correction across the visible range with excellent transmission out to 1300 nm, making this objective ideal for multiphoton imaging applications. This 15X objective features a high 0.70 NA for collecting two-photon fluorescence signals, a working distance of 2.6 mm, and a correction collar and optical thickness scale, allowing the objective's focus to be adjusted for a variety of media.  Learn more at https://lnkd.in/e5VGmk8S.  #objective #apochromatic #microscope #MultiPhotonObjective #fluorescence #microscopy

The evolution of micro-scale bone damages into critical fracture is still not a fully understood process, and the application of advanced investigation techniques (such as 3D imaging) is difficult, due to the low number of lacunae - pores that contain osteocytes cell bodies - that can be studied per sample. That's why scientists applied a combination of #ArtificialIntelligence tools and synchrotron testing techniques to study damages induced by #COVID_19 and #osteoporosis on bones (micro)structure. Check out the results they achieved on our latest highlight: https://bit.ly/3W4jlUt