Deutsch

The official launch of FV4000 and FV4000MPE microscopes aims to redefine scientific imaging

825
2023-11-03 14:24:48
Übersetzung anzeigen

Introduction to FLUOVIEW ™ The FV4000 confocal laser scanning microscope and FV4000MPE multiphoton laser scanning microscope have made breakthroughs in imaging technology, enabling researchers to make new scientific discoveries. The FV4000 and FV4000MPE microscopes aim to redefine scientific imaging, providing higher accuracy, lower noise, and higher sensitivity, setting new standards for image acquisition and data reliability.

The core of two new FLUOVIEW systems is Evident's revolutionary SilVIR ™ Detectors, a next-generation technology that enables researchers to obtain quantitative image data. With its silicon photomultiplier tube (SiPM) and patented digital signal processing technology, the SilVIR detector can provide excellent noise reduction and enhanced photon detection efficiency over a wider wavelength range, providing clearer and more accurate imaging results and quantitative image intensity data.

Excellent imaging quality and accuracy. The FV4000 and FV4000MPE microscopes use SilVIR detectors, perfectly combining sensitivity and accuracy, allowing researchers to obtain high-quality images that surpass previous generation laser scanning systems, even from weak fluorescence signals. This progress helps to ensure that images remain clear and have extremely low noise, enabling accurate quantification of fluorescence intensity to obtain more reliable data.

The updated TruSpectral technology of the system is combined with high sensitivity SilVIR detectors, allowing you to see more. Compared with traditional photomultiplier tube (PMT) detector technology, the signal-to-noise ratio and dynamic range have been improved by using SilVIR detector. The system changes the dynamic range of game rules, allowing researchers to capture images that shrink from macroscopic to subcellular structures without compromise.

The innovative near-infrared capability, with its expanded spectral range and improved multiplexing capability, enables the FV4000 system to detect industry-leading wavelengths ranging from 400 nm to 900 nm with a minimum step size of 1 nm.

The optical design of the FV4000 is optimized for near-infrared (NIR) imaging, featuring high transmittance optical elements from 400 nm to 1300 nm, modular laser combiners supporting up to 10 laser lines from 405 nm to 785 nm, and the award-winning X Line ™ Goal.

The advancement driven by artificial intelligence enhances your imaging experience with AI driven tools that reduce noise, simplify image analysis, and improve delayed imaging. TruAI noise reduction and image segmentation technology can optimize image quality and simplify data extraction, saving researchers valuable time and effort.

The improved modularity and flexibility are the same as the previous generation products, and our FLUOVIEW system is designed with flexibility and configuration suitable for your specific application. With FV4000, you can now add multi photon imaging functionality, allowing you to use the same system for two imaging modes.

Experience the revolutionary features of FLUOVIEW FV4000 and FV4000MPE microscopes, providing higher accuracy, sensitivity, and data reliability for your imaging experiments.

Source: Laser Network

Ähnliche Empfehlungen
  • Uncovering the Secrets of Nature: A New Generation of X-ray Lasers Reveals the Mystery of Atoms

    As a breakthrough leap in scientific exploration, the new generation of powerful X-ray lasers is now targeting the fastest and most basic processes in nature. Their mission: to uncover the complex atomic arrangement that drives these phenomena, providing unprecedented insights into chemical reactions, electronic behavior in materials, and the mysteries of the natural world.Unlocking the precise me...

    2023-09-25
    Übersetzung anzeigen
  • The latest progress in laser chip manufacturing

    Modern computer chips can construct nanoscale structures. So far, only these tiny structures can be formed on top of silicon chips, but now a new technology can create nanoscale structures in a layer beneath the surface. The inventor of this method stated that it has broad application prospects in the fields of photonics and electronics, and one day, people can manufacture 3D structures on the ent...

    2024-07-29
    Übersetzung anzeigen
  • Enlightra and DESY Hamburg developed an improved and scalable comb laser

    Laser technology startup Enlightra collaborates with DESY Hamburg to develop and design more stable and efficient comb lasers. This work demonstrates a microresonator with programmable synthetic reflection, providing tailored injection feedback for driving lasers. This technology has significantly improved compared to traditional self injection locking technology and can be produced using standard...

    2024-01-26
    Übersetzung anzeigen
  • High Power Laser Assists Scientists in Discovering a New Stage of High Density and Ultra High Temperature Ice

    As is well known, the outer planets of our solar system, Uranus and Neptune, are gas giants rich in water. The extreme pressure on these planets is 2 million times that of the Earth's atmosphere. Their interiors are also as hot as the surface of the sun. Under these conditions, water exhibits a strange high-density ice phase.Researchers have recently observed one of the stages, called Ice XIX, whi...

    2023-10-11
    Übersetzung anzeigen
  • AEROTECH releases updated AUTOMATION1 motion control platform

    Aerotech is a global leader in precision motion control and automation, and every release has made the Automation1 motion control platform even stronger and more user-friendly. Version 2.5 brings TCP socket interface (test version), Automation1 MachineApps HMI development, new auxiliary module for motor settings, and improved machine settings for galvanometer laser scanning heads.Automation1 conti...

    2023-08-14
    Übersetzung anzeigen