hybrid semiconductor pixel detector | גלאי פיקסלים היברידיים

hybrid semiconductor pixel detector | גלאי פיקסלים היברידיים

hybrid semiconductor pixel detector | גלאי פיקסלים היברידיים
hybrid semiconductor pixel detector | גלאי פיקסלים היברידיים

גלאי פיקסל מוליכים למחצה היברידי לדיוק דימות קרינה, מעקב אחר חלקיקים וניטור קרינה. זהו מכשיר דיגיטלי קומפקטי רב תכליתי המציג פיתרון חדשני עבור רישומי חלקיקים ללא רעש של קרני רנטגן, חלקיקי אלפא, חלקיקי בטא וחלקית גם קרני גמא

אם אתם מחפשים אחר גלאי מסוג זה או כל גלאי אחר וציוד נילווה אתם מוזמנים לפנות אלינו לקבלת מידע נוסף, ייעוץ והצעת מחיר

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Here are 10 similar, in-demand products that are also used for particle and radiation detection:

  • Monolithic Active Pixel Sensors (MAPS): Unlike hybrid detectors, MAPS integrate both the sensor and the readout electronics onto a single silicon chip. This approach simplifies manufacturing, reduces costs, and allows for smaller pixel sizes, making them popular for applications that require very high spatial resolution, like in high-energy physics trackers.
  • Silicon Drift Detectors (SDDs): SDDs are used in X-ray spectroscopy. They collect charge carriers generated by X-rays and drift them to a small anode, which results in very low electronic noise and excellent energy resolution. They are a staple in most modern SEM-EDS systems for elemental analysis.
  • Charge-Coupled Devices (CCDs): Once the standard for digital imaging, CCDs are still in high demand for scientific applications like astronomy and medical imaging. They have very high quantum efficiency and low noise, which is critical for capturing faint light signals.
  • Silicon Photomultipliers (SiPMs): SiPMs are solid-state devices used for detecting extremely low light levels, down to a single photon. They are a compact, low-voltage alternative to traditional photomultiplier tubes and are in high demand for applications like PET scanners and LiDAR.
  • Avalanche Photodiodes (APDs): APDs are semiconductor devices that use an internal gain mechanism to amplify a light signal. They are a key component in fiber-optic communications and are used in applications where a high signal-to-noise ratio is required.
  • Cadmium Telluride (CdTe) Detectors: CdTe is a wide-bandgap semiconductor material used for direct detection of X-rays and gamma rays. These detectors are prized for their high efficiency and room-temperature operation, which eliminates the need for bulky and expensive cooling systems.
  • Gas Electron Multipliers (GEMs): These are gas-filled detectors used to detect charged particles. They consist of a thin polymer foil with a high density of micro-holes, which act as a gas amplification stage. They are used in particle physics experiments where large-area coverage is required.
  • Micro-channel Plates (MCPs): MCPs are used as electron multipliers in a variety of detectors, including image intensifiers and mass spectrometers. They consist of a glass plate with millions of microscopic channels, which amplify the incoming signal to a detectable level.
  • Scintillation Detectors: These detectors use a material that emits light when struck by a particle or photon. The light is then converted into an electrical signal by a separate sensor, like a photomultiplier tube or SiPM. They are a foundational technology in nuclear medicine and high-energy physics.
  • Germanium Detectors: High-purity germanium (HPGe) detectors provide exceptional energy resolution for gamma-ray spectroscopy. While they typically require cryogenic cooling, their unmatched resolution makes them the gold standard for applications like environmental monitoring and nuclear safeguards.

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