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  • Teledyne DALSA and Wickon Hightech announce partnership

    Teledyne DALSA and Wickon Hightech s.r.o, an innovative provider of advanced inspection and measurement systems, are excited to announce a strategic collaboration aimed at bringing cutting-edge 3D scanning technology to market.

  • High-Speed Mouse Voltage Imaging

    The lab of Prof. Zhenyu Gao at the Erasmus University Medical Center studies how the brain controls motion, learning, and memory. In order to study these functions, Prof. Gao’s lab uses in vivo methods to detect electric signals in the brains of mice models. This is achieved by either utilizing electrophysiological methods or fluorescent optical methods, or a combination of both.

  • Introduction To Modern Camera Technologies

    A scientific camera is a vital component of any imaging system. These cameras are designed to quantitatively measure how many photons of light hit which part of the camera sensor. Photons generate electrons (photoelectrons), which are stored in sensor pixels and converted to a digital signal, which is displayed as an image. This process is optimized at every stage in order to produce the best possible image depending on the signal received.

  • Teledyne e2v announces new high-speed sensor with extended sensitivity in NIR wavelengths

    Teledyne e2v’s new high-speed sensor delivers extended sensitivity in NIR wavelengths

  • Teledyne brings new imaging solutions to Vision China

    Teledyne brings new imaging solutions to Vision China

  • Biomedical Quantum Photonic Sensing

    Dr. Frank Setzpfandt and Dr. Vira Besaga of the Nano and Quantum Optics group are investigating various sensing and imaging modalities using quantum light. This involves the generation of non-classical states of light and their application, using both theoretical and experimental approaches.

  • Scanless Two-Photon Voltage Imaging

    One of the main interests of the research group at Intelligent Imaging Innovations (3i) is developing and improving different imaging technologies. Recent engineering and conceptual improvements in holographic microscopy hardware have opened the technique to different unprecedented applications. An interesting and promising feature enabled by holographic microscopy is the possibility to target light in a spatially confined part of the sample using phase-only laser modulation.

  • Teledyne e2v Honored with Topcon Corporation's 2024 Best Partner Award

    Teledyne e2v is proud to have received the Best Partner Award 2024 from Topcon Corporation.

  • High-Speed Cardiac Voltage Imaging

    Dr. Ewan Fowler is a British Heart Foundation Basic Sciences Intermediate Research Fellow at Cardiff University, working to understand heart disease, specifically arrhythmias and the role that calcium handling has on cardiac electrophysiology. Dr. Fowler told us more, "I'm currently working with a model of inherited heart disease called CVPT [catecholaminergic polymorphic ventricular tachycardia], where it's thought that increased spontaneous calcium release can trigger ectopic activity in the heart."

  • TIRF Vesicle Fusion

    Imaging vesicle fusion using a Kinetix sCMOS and TIRF microscopy

  • Distributing Spinnaker Applications

    When distributing applications built with the Spinnaker SDK, certain files must be included with the package: Spinnaker dll and configuration files (see Table 1) Microsoft Visual Studio and .NET runtimes (The version of Visual Studio and .NET runtimes depend on which Spinnaker version is installed.)

  • VLWIR MBE HgCdTe Detectors

    For decades, mercury cadmium telluride (HgCdTe) has been the material of choice for high-performance photoconductive (PC) detectors, especially in the very long wavelength infrared (VLWIR) range. Traditionally, these detectors were fabricated using bulk-grown wafers, which provided the necessary material quality for sensitive infrared detection. However, as supplies of these bulk wafers have dwindled, the industry has faced a pressing need for alternative manufacturing methods.