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  • Teledyne DALSA introduces a thermal camera component for temperature screening systems

    Teledyne DALSA, a Teledyne Technologies [NYSE:TDY] company and global leader in digital imaging technology, is introducing a new member of the Calibir camera series, the GXF model, which may be used as a component in skin temperature screening systems.

  • Using the Silent Installer for the Spinnaker SDK

    Recognizing the importance of efficient deployment, the Spinnaker SDK includes a silent installer, a specialized tool that significantly simplifies the installation process, especially in complex environments with multiple systems or automated workflows.

  • Getting Started with Bumblebee X in MVTec HALCON

    This application note describes using the Bumblebee X stereo camera in MVTec HALCON.

  • Teledyne DALSA’s Genie Nano-5G camera now in full production

    Teledyne DALSA, a Teledyne Technologies [NYSE:TDY] company and global leader in digital imaging technology, is pleased to announce that the new GenieTM Nano-5G M/C8100 camera, based on the ON Semiconductor 45M monochrome and color sensors, has now entered full production

  • Optics and Nanomaterials

    The Walter Scott Engineer Center maintains extensive research facilities that include active and passive remote sensing facilities, an optical polarimetric scatterometer, an atomic force/scanning tunneling microscope facility and a microwave anechoic chamber facility.

  • Super Resolution Microscopy (SIM)

    The Center for Biological Imaging is a member of Core Facility for Protein Sciences of Chinese Academy of Sciences, which is a support system for scientific research and plays an integral part in supportinginnovation within the Institute of Biophysics. The core facility center has become the largest CAS biological instrument platform in the Beijing area.

  • Vesicle Tracking and Transport

    Research in the Pucadyil lab at the Indian Institute of Science Education and Research is focused on understanding how proteins involved in vesicular transport manage to sort membrane proteins and bud out vesicles from cell membranes. The team approaches this area of research by reconstituting partial reactions that contribute tobudding and scission of transport vesicles from model membranes that mimic native cell membranes.

  • The Development of Carbon Nanotube Optical Sensors for Early Disease Detection

    One of the main areas of research at the Memorial Sloan Kettering Cancer Center in New York City is the development of nanoscale sensors to detect cancer at its earliest stages.

  • Dynamic Neutron Radiography - Novel (3D) Neutron Imaging Technique

    Every engineer and scientist dreams of being able to investigate objects from within, without destroying them, in order to study cracks, hidden flaws, or structural material changes. Over the years, a variety of technologies have been utilized to help make this dream a reality via the ongoing development of new techniques that leverage the unique characteristics of different radiation modalities.

  • Advanced CMOS Detectors: Enabling the Future of Astronomical Observation

    Ground based astronomy provides an accessible way to image objects in space. As most of the objects in space can be observed within the visible wavelength range (380-700 nm), optical astronomy has been at the forefront of astronomical observation. Many objects in space are very faint, requiring a camera with high sensitivity and minimal noise to detect their weak signal.

  • New Era in Dynamic Range and Linearity for Scientific CMOS Cameras

    Scientific CMOS technology offers improvements over previous sensor technologies such as CCD and EMCCD in key performance areas such as speed, noise performance, energy use and sensor size.

  • Why Must I Have an emICCD?

    Intensified cameras are specialized devices that optically connect an image intensifier to a CCD sensor. One finds a wide variety of CCD sensor architectures making this camera type adaptable to many imaging and spectroscopy experimental needs.