Description

LYSO (Lu₁₋ₓYₓSiO₅) Scintillator Crystal – Full Specifications & Advantages

Key Advantages

• Exceptional Light Output (33,200 Photons/MeV)

  Emits intense blue light (peak wavelength: 420 nm) with one of the highest photon yields among scintillators, ensuring superior signal-to-noise ratios. This enables precise energy measurement and enhances image contrast in PET applications.
• Ultra-Fast Decay Time (36–38 ns)

  Significantly faster than BGO or NaI(Tl), minimizing signal pile-up even in high-count-rate environments (e.g., busy clinical PET centers). Critical for time-of-flight (TOF) PET, where temporal resolution directly improves image quality and reduces scan time.
• High Density (7.35 g/cm³)

  Maximizes stopping power for gamma rays and energetic particles, ensuring efficient absorption and reducing radiation penetration—ideal for compact detectors and high-energy radiation (e.g., 511 keV positron annihilation photons in PET).
• Superior Energy Resolution

  Combined with its high light output, LYSO offers excellent energy discrimination, enabling clear separation of multiple radiation sources (e.g., distinguishing radiotracers in multi-isotope studies).
• Non-Hygroscopic & Chemically Stable

  Unlike NaI(Tl), LYSO is completely non-hygroscopic (no moisture absorption) and resistant to chemical attack, eliminating the need for complex sealing. This simplifies device design and ensures long-term stability in humid or harsh environments.
• High Radiation Hardness (>10⁸ rad)

  Withstands intense radiation fields without performance degradation, making it suitable for high-dose applications like particle colliders and industrial radiation monitoring.
• Mechanical Durability

  A Mohs hardness of 5.8 ensures resistance to scratching and handling damage during detector assembly, while a high melting point (2323 K / 2050°C) guarantees stability in high-temperature environments.

Core Physical Properties

• Density: 7.35 g/cm³
• Melting point: 2323 K (2050°C)
• Effective atomic number: 65
• Hardness: 5.8 Mohs
• Refractive index: 1.82
• Decay time: 36–38 ns
• Radiation length: 1.15 cm
• Emission wavelength: 420 nm (blue)
• Light yield: 33,200 photons/MeV
• Radiation hardness: >10⁸ rad
• Hygroscopicity: Non-hygroscopic

Q&A Summary

• Q: How does LYSO compare to BGO?

  A: LYSO offers 3–4× higher light output and 10× faster decay time than BGO, making it superior for TOF-PET and high-resolution imaging—though at a higher cost, it reduces scan time and improves image quality.
• Q: Is LYSO suitable for TOF-PET?

  A: Yes—its fast decay time (36–38 ns) is a key advantage for TOF-PET, where it enables precise time differences between photon detections, improving image contrast and reducing artifacts.
• Q: What is the shelf life of LYSO crystals?

  A: Indefinite under proper storage (dry, room temperature). LYSO is chemically stable and does not degrade over time.