CY2519 Sodium Iodide Scintillation Crystal (NaI)

Sodium Iodide Scintillation Crystal Description

Sodium Iodide (NaI) Scintillation Crystals are widely recognized for their excellent physical and chemical properties, making them a staple in radiation detection and measurement industries. Stanford Optics is a trusted supplier with extensive expertise in the production and distribution of high-quality Sodium Iodide Scintillation Crystals, offering competitive pricing without compromising on performance.

Applications of Sodium Iodide Scintillation Crystals

Sodium Iodide crystals are versatile and commonly used in a variety of fields, including:

• Medical: Single Photon Emission Computed Tomography (SPECT) gamma cameras, whole-body counting, radioimmunoassay (RIA)

• Security: Thermal neutron activation detection

• Industrial: Thickness and density gauging, coal and mineral assay

• Oil and Gas Exploration: Well-logging applications

• Environmental Monitoring: Radiation detection in environmental studies

• Aerial Survey: Remote sensing and mapping

• Nuclear Physics: Research and experimental applications

Key Features of Sodium Iodide Scintillation Crystals

• High Scintillation Efficiency: Converts incoming radiation into light signals with exceptional precision and brightness.

• Gamma-Ray Sensitivity: Highly responsive to gamma radiation, ideal for gamma spectroscopy and radiation monitoring.

• Excellent Energy Resolution: Enables accurate identification and quantification of radiation energy levels.

• Fast Decay Time: Provides rapid signal decay for quick response and efficient data acquisition in detection systems.

Benefits of Sodium Iodide Scintillation Crystals

• Accurate Radiation Detection: Ensures reliable measurement of ionizing radiation, supporting safety and research applications.

• High Sensitivity: Superior detection capability for gamma rays makes it essential in nuclear medicine, radiography, and environmental monitoring.

• Precise Energy Measurement: Facilitates detailed analysis of radiation sources by accurately measuring energy levels, aiding isotope identification.