Princeton PI-MAX2 is a scientific camera for cutting-edge research. Utilizing an interline CCD and a high-speed PCI interface, it excels in capturing rapidly evolving events in great detail. The camera can take two consecutive gated images in rapid succession, with a time between frames as short as 2 µs and exposure times as short as 5 ns. This makes it ideal for fields such as luminescence decay measurements and double laser pulse velocimetry. It's equipped with a fast decay phosphor to minimize persistence, enabling high-speed image acquisition.
Princeton PI-MAX2 is a scientific camera for cutting-edge research. Utilizing an interline CCD and a high-speed PCI interface, it excels in capturing rapidly evolving events in great detail. The camera can take two consecutive gated images in rapid succession, with a time between frames as short as 2 µs and exposure times as short as 5 ns. This makes it ideal for fields such as luminescence decay measurements and double laser pulse velocimetry. It's equipped with a fast decay phosphor to minimize persistence, enabling high-speed image acquisition.
Princeton PI-MAX2 is a scientific camera for cutting-edge research. Utilizing an interline CCD and a high-speed PCI interface, it excels in capturing rapidly evolving events in great detail. The camera can take two consecutive gated images in rapid succession, with a time between frames as short as 2 µs and exposure times as short as 5 ns. This makes it ideal for fields such as luminescence decay measurements and double laser pulse velocimetry. It's equipped with a fast decay phosphor to minimize persistence, enabling high-speed image acquisition.
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