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Photon Counters

High Speed Sustained Gigahertz Photon Counter
Marina Photonics Inc
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High Speed Sustained Gigahertz Photon Counter
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Two to four channels of photon counting are available with 1 GHz per channel sustained count rates with no dead time or lost counts.  There is no start-stop reset time.  Once photon counting is triggered, it continues to place photons in one nanosecond bins until the entire process is stopped by a reset. The photon counter ...

Specifications
Active Diameter: 48 mm
Peak Quantum Efficiency: -- %
Spectral Range: 1-1nm
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PDC Series Electronic Carrier Module
Optoelectronic Components
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PDC Series Electronic Carrier Module
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The PDC module is a single-photon detection carrier able to properly bias any silicon avalanche diode operated in so-called “Geiger-mode” which means operated above breakdown voltage (BV as high as 480V), so that a single incoming photon triggers an avalanche of electrons already large enough to be detected and counted as an ...

Specifications
Active Diameter: 46 mm
Peak Quantum Efficiency: -- %
Spectral Range: 380-1000nm
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PDM Series Photon Counting Detector Modules
Optoelectronic Components
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PDM Series Photon Counting Detector Modules
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The PDM series photon counting detector modules are all solid-state instruments. They have a photon detection efficiency of 49% at 550nm and generate a TTL output pulse per detected photon. With fast-timing option (additional circuit board installed) they provide better than 50ps FWHM photon timing resolution. The excellent ...

Specifications
Active Diameter: 0.1 mm
Peak Quantum Efficiency: 49 %
Spectral Range: 400-1000nm
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FastGated-SPAD
Optoelectronic Components
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FastGated-SPAD
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The FastGatedSPAD module is a compact detection module capable of gating a silicon SPAD for wide dynamic range optical measurement. The module includes a fast pulse generator, with gating transitions below 200 ps at repetition rates up to 80 MHz, with fully programmable ON time and excess bias. The differential front-end electronics ...

Specifications
Active Diameter: 0.05 mm
Peak Quantum Efficiency: 55 %
Spectral Range: 400-1000nm
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PDM9107-CP-TTL - Photodetector Module
ADIT Electron Tubes
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PDM9107-CP-TTL - Photodetector Module
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The PDM9107-CP-TTL is a photon counting module incorporating a high sensitivity, low noise, 29mm diameter photomultiplier, a fast amplifier-discriminator, and a low power high-voltage supply. The combination of high-speed electronics and fast photomultiplier with low dark counts enables a wide dynamic range to be ...

Specifications
Active Diameter: 25 mm
Peak Quantum Efficiency: 28 %
Spectral Range: 280-630nm
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PDM03-9107-USB - Photodetector Module
ADIT Electron Tubes
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PDM03-9107-USB - Photodetector Module
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The PDM03-9107-USB is a plug-and-play photon counting module incorporating a high sensitivity, low noise, 29mm diameter photomultiplier, fast counting electronics and a low-power high voltage supply. The counting electronics consist of an amplifier/discriminator with an adjustable threshold and a multi-channel ...

Specifications
Active Diameter: 25 mm
Peak Quantum Efficiency: 28 %
Spectral Range: 280-630nm
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PDM02-9111-TTL - Photodetector Module
ADIT Electron Tubes
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PDM02-9111-TTL - Photodetector Module
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The PDM02-9111-TTL is a photon counting module incorporating a high sensitivity, low noise, 25mm diameter photomultiplier, a fast amplifier-discriminator, and a low power high-voltage supply. The combination of high-speed electronics and fast photomultiplier with low dark counts enables a wide dynamic range to be ...

Specifications
Active Diameter: 22 mm
Peak Quantum Efficiency: 28 %
Spectral Range: 280-600nm
Data Sheet
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Frequently Asked Questions

Photon Counters, also known as Single-Photon Counters or Photon Detectors, are highly sensitive devices used to detect and measure individual photons. They provide a means of quantifying the number of photons emitted or received by a light source or detected in a specific experiment or application.

Photon Counters operate based on various principles such as avalanche photodiodes (APDs), photomultiplier tubes (PMTs), or single-photon avalanche diodes (SPADs). These devices are designed to convert incident photons into electrical signals, enabling the counting and measurement of individual photons with high sensitivity and accuracy.

Photon Counters find applications in numerous fields, including quantum optics, spectroscopy, fluorescence analysis, lidar systems, time-correlated single photon counting (TCSPC), single-photon imaging, biophotonics, and quantum communication. They are essential tools for studying light-matter interactions at the quantum level and for applications that require precise measurement and detection of low levels of light.

When selecting a Photon Counter, important factors to consider include the detection efficiency, dark count rate, timing resolution, spectral range, quantum efficiency, dynamic range, and overall sensitivity. The choice of the most suitable Photon Counter will depend on the specific application requirements, such as the desired photon counting rate, wavelength range, and experimental setup.

Yes, Photon Counters are specifically designed to detect and count single photons. They have high sensitivity and are capable of resolving extremely low levels of light, enabling the measurement of individual photons in various applications and experiments.

There are 7 different Photon Counters from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Photon Counters with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Photon Counters vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Did you know that Photon Counters are highly sensitive devices capable of detecting and quantifying individual photons? These specialized detectors, also known as Single-Photon Counters or Photon Detectors, play a crucial role in various scientific and technological fields. Photon Counters operate based on different principles such as avalanche photodiodes (APDs), photomultiplier tubes (PMTs), or single-photon avalanche diodes (SPADs). They convert incident photons into electrical signals, allowing for the precise measurement and counting of single photons. Photon Counters have a wide range of applications, including quantum optics, spectroscopy, fluorescence analysis, lidar systems, single-photon imaging, and quantum communication. These devices offer high sensitivity, low noise, and excellent timing resolution, making them essential tools for studying light-matter interactions at the quantum level and performing experiments that require the detection and analysis of low levels of light. When selecting a Photon Counter, factors such as detection efficiency, dark count rate, timing resolution, spectral range, and overall sensitivity should be considered to ensure optimal performance for specific application requirements.
Read more in our Blog
External links:
1 - Photon-counting: Principles and Clinical Prospects
2 - Avalanche Photodiodes: A Guide to Choosing the Right APD