• SensL

    6800 Cork Airport Business Pk
    Cork T12 CDF7
    Ireland
    353-21-240-7110
    353-21-240-7119
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    Produces state-of-the-art silicon photomultipliers, measurement instruments, and photon counting devices, developed to provide the highest uniformity and engineering standards, and best mix of price and performance in the industry.

    Articles

    The acquisition is expected to be immediately accretive to ON Semiconductor's non-GAAP earnings per share.
    (Courtesy of Laser Components)
    FIGURE 1. An APD from Laser Components can be optimized for shorter wavelengths or for the near-IR. A photon-counting APD (inset) in a TO-46 can is unaffected by magnetic fields.
    Avalanche photodiodes, silicon photomultipliers, and their variants serve low-light-detection needs, even counting single photons when needed.
    B Series silicon photomultipliers from SensL
    The B Series of silicon photomultipliers provide >40% photon detection efficiency at 420 nm and extended responsivity to 300 nm.
    Content Dam Etc Medialib Platform 7 Laser Focus World Articles Online Exclusive Articles 2010 Global 58867
    The small form factor makes the SPMArray suitable for weight and space constrained handheld radiation detection and identification systems for homeland security and for simpler...
    FIGURE 1. A typical single-photon-counting microcell includes a photon-counting diode and internal resistor (left). An SPM is a large array of single microcells, each of which responds to individual photons, placing a fixed charge on the output node in response to each photon (center). A 50 μm “aggressive” SPM has 302 microcells 50 μm in size in a 1 × 1 mm array, or 1930 in a 3 × 3 mm array (right).
    Composed of arrays of silicon Geiger-mode avalanche photodiodes, solid-state silicon photomultipliers are small and rugged; in many applications, they can replace photomultiplier...
    FIGURE 1. In a silicon shallow-junction Geiger-mode photon-counting detector (seen here in schematic cross section), the n+ into p junction is formed in standard thin p-type silicon substrates. Top or bottom contact of the anode is possible to allow for configuration in a number of novel packages and fully integrated applications.
    Second-generation silicon photon-counting imaging technology has single-photon sensitivity, retains photon-arrival timing information without requiring sensor cooling, and can...

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