T-lab ST10 series universal stripe camera Introduction: A stripe camera is a transient optical process measurement instrument that has both high temporal resolution (picoseconds) and high spatial resolution (micrometers). Combined with microscopes or spectrometers, a diagnostic system is formed to achieve ultrafast spatial intensity time resolution or spectral intensity time resolution correlation parameter measurement, which is a key tool for research in fields such as ultrafast photochemistry, photophysics, fluorescence processes, and ultra short laser technology. characteristic: 1. Wide spectral range: 200-900nm (UV-VIS-NIR) 2. High spatiotemporal resolution: The typical time resolution of the striped tube is less than or equal to 2ps, and the spatial resolution is greater than 50lp/mm 3. Mature striped tube: Photochron-5 high-frequency tube (>200MHz) 4. Consider multiple scanning modes: single scan&high-frequency scan 5. Combined with spectrometer: solution for ultrafast time-resolved spectroscopy system 6. Professional software integration control Technical parameters: Model: ST10 Effective slit length of striped tube cathode: 8 mm Optical slit length: 12 mm Optical slit width: 0~3 mm, manually adjustable 10 μ m adjustment accuracy Scanning frequency: Single scan -200 MHz Stripe tube time resolution (minimum):<=2 ps (400 fs) System time resolution (in conjunction with spectrometer and optical path):<=5ps (500ps gear) Scanning timeline range: 500ps-10us Image intensifier: 25mm, MCP125; (dual MCP optional) Image intensifier gain (P20): MCP125: ≤ 1.00E+04; Read out the camera coupling method: lens coupling 1:1 fiber optic panel Array: 2048 * 2048 Pixel: 6.5um * 6.5um Detection surface size: 13.3 * 13.3mm Pixel well depth:>=45000e- Quantum efficiency:>90% Dynamic range: 90dB Cooling method: air-cooled Minimum cooling temperature: -15 degrees Celsius Frame rate/AD bit: 40fps 16 bit Communication method: USB 3.0
Introduction: A stripe camera is a transient optical process measurement instrument that has both high temporal resolution (picoseconds) and high spatial resolution (micrometers). Combined with microscopes or spectrometers, a diagnostic system is formed to achieve ultrafast spatial intensity time resolution or spectral intensity time resolution correlation parameter measurement, which is a key tool for research in fields such as ultrafast photochemistry, photophysics, fluorescence processes, and ultra short laser technology.
