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ScintIQ™ Custom Scintillation Detectors  ·  Data Sheet

YAG:Ce Scintillators

Cerium-doped Yttrium Aluminum Garnet (Y3Al5O12:Ce) is a robust, non-hygroscopic oxide scintillator with a long-wavelength green emission at 550 nm and a fast 70 ns decay. Its mechanical hardness, chemical stability, and radiation hardness make it the standard choice for electron-microscopy fluorescent screens and charged-particle beam-imaging applications.

Density 4.57 g/cm³
Emission 550 nm
Decay Time 70 ns
Hygroscopic No
Doc type: Data Sheet  ·  YAG:Ce  ·  Berkeley Nucleonics ScintIQ
YAG:Ce scintillator crystal

1Overview

YAG:Ce is a Ce-doped Yttrium Aluminum Garnet (Y3Al5O12) oxide crystal. It belongs to the garnet structural family and grows without any hygroscopic character, which is a significant advantage in open-lab and field environments where NaI(Tl) or LaBr3(Ce) would require hermetic enclosure. The crystal is mechanically hard and chemically inert, tolerating machining to tight tolerances and surviving harsh environments that would degrade halide-based materials.

The defining emission band sits at 500 to 700 nm, peaking at 550 nm. That green emission couples well to standard bialkali photomultiplier tubes and to many silicon photodiodes. The 70 ns average decay time is fast relative to NaI(Tl) (230 ns) and is useful in moderate-rate counting applications. Light yield is approximately 30,000 photons per MeV, placing YAG:Ce below the brightest halide scintillators but well above BGO and comparable fast materials.

The standout property is radiation hardness combined with non-hygroscopic stability. YAG:Ce crystal screens retain performance under prolonged electron-beam bombardment, which is the reason they became the standard fluorescent screen material in scanning electron microscopes, transmission electron microscopes, and beam-profile monitors.

YAG:Ce scintillator crystal specimen
YAG:Ce crystal specimen. The material grows as a dense, mechanically hard oxide and requires no hermetic packaging.

2Specifications

Parameter Value Notes
Crystal compositionCe-doped Y3Al5O12Garnet structure, oxide
Density4.57 g/cm³
Emission maximum550 nmGreen emission
Emission band500 to 700 nmBroad garnet Ce³⁺ band
Transmission range500 to 1000 nm
Emission intensity~30,000 photons/MeVApprox.; verify against lot
Average decay time70 ns
Refractive index1.83 at 550 nm
Melting point1970 °C
Thermal expansion coefficient8 to 9 × 10−6 °C−1
Afterglow< 0.005 % at 6 msVery low
HygroscopicNoNo special packaging required
CleavageNoneMechanically robust
Radiation hardnessHighSuitable for e-beam screens
Energy resolutionverifyNot specified in source datasheet
Maximum dimensionsverifyContact BNC for available sizes
Preliminary data: Emission intensity, energy resolution, and maximum crystal dimensions should be verified against the current production lot and BNC application engineering. Values marked "verify" are not present in the source datasheet.

3Optical Properties

The Ce3+ dopant in YAG produces a characteristic broad luminescence band peaking at 550 nm via the 5d-to-4f Ce transition. This long-wavelength emission is well above the UV cutoff of most optical windows and glass light guides, making YAG:Ce compatible with standard PMT cathodes and virtually all silicon photodetectors. The 1.83 refractive index at the emission maximum is intermediate, allowing efficient light extraction with conventional optical coupling compounds.

The material's wide transmission range (500 to 1000 nm) means it is also compatible with near-infrared readout options where a standard bialkali PMT would be insensitive. Afterglow is exceptionally low at less than 0.005 % remaining at 6 ms, which minimizes image persistence in beam-profiling applications where rapid frame-to-frame contrast is required.

Refractive index coupling and thin-screen preparation are the main variables that affect light collection efficiency in electron-microscopy applications. Polished thin discs (verify thickness availability) are the most common form factor for EM fluorescent screens.

4Typical Applications

YAG:Ce is selected when mechanical robustness, chemical stability, and radiation hardness matter more than ultimate light yield or energy resolution. Primary use cases include:

  • Electron microscopy screens (SEM, TEM, FIB): fluorescent conversion screens for e-beam-to-optical conversion, replacing older powder phosphors with a single-crystal, machinable, non-outgassing alternative.
  • Charged-particle beam imaging: beam-profile monitors and position detectors in accelerator beam lines and ion-implantation systems where prolonged particle bombardment would degrade halide crystals.
  • X-ray imaging and scintillator screens: thin-crystal fluorescent screens for X-ray detectors and microscopy, particularly where green CCD or CMOS sensors benefit from the 550 nm emission.
  • Synchrotron and lab X-ray sources: sample environment monitors and beam diagnostics where a robust, non-hygroscopic screen is required adjacent to sample chambers.
  • Positron lifetime spectroscopy: the 70 ns decay is fast enough for moderate-coincidence positron annihilation work (verify with application engineering for specific time-resolution requirements).
  • Fast-neutron and heavy-ion detection: research applications where radiation hardness is a primary selection criterion.
  • Industrial and process imaging: environments with humidity, handling stress, or chemical exposure that preclude hygroscopic scintillator materials.

5Available Configurations

Berkeley Nucleonics supplies YAG:Ce as finished scintillator crystals and as assembled detector modules. Standard configurations below; contact BNC for custom geometries and production quantities.

Crystal Forms

Form Typical Use Notes
Polished disc or plateEM fluorescent screens, X-ray scintillator screensThickness and diameter: verify
Rectangular blockBeam profilers, general countingDimensions: verify
Custom-machined shapeInstrument integrationTolerances: verify with BNC

Readout Options

Readout Compatibility
Bialkali PMTGood match; peak QE region aligns with 550 nm emission
Silicon photodiodeExcellent; broad silicon response overlaps 500-700 nm band
SiPM / MPPCCompatible; confirm PDE curve with SiPM vendor for 550 nm
CCD / sCMOS cameraPreferred for imaging applications; green-optimized sensors ideal
CMOS image sensorUsed in EM and X-ray camera assemblies

Housing and Packaging

YAG:Ce does not require hermetic sealing. Crystals are typically supplied bare-polished, optically coupled to a window or fiber-optic plate, or mounted in an aluminum housing with optical coupling compound. All configurations are available with or without reflective wrapping. Specify thin-screen (EM), standard detector, or imaging-module configuration when requesting a quote.

Thin-screen dimensions: Specific thickness ranges for electron-microscopy screens are application-dependent. Contact BNC application engineering to confirm availability and machining tolerances for your instrument geometry.

6Request a Quote

YAG:Ce crystals are available in standard and custom configurations. Berkeley Nucleonics ScintIQ application engineers can advise on crystal thickness, surface finish, readout selection, and integration for electron-microscopy or beam-imaging applications. Contact us to discuss your requirements or request a sample.

ContactDetails
Emailinfo@berkeleynucleonics.com
Phone800-234-7858
Address2955 Kerner Blvd, San Rafael, CA 94901
Webberkeleynucleonics.com
ScintIQ crystals are grown and finished with our long-standing scintillation partner in the Netherlands (Scionix Holland).