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The High efficiency Radionuclide-identifier RadXplore-ident, an ultra-compact, robust and sensitive radionuclide identifier (RID) which features a wide energy range, high throughput and excellent stability with outstanding application capabilities.
RadXplore-ident is designed to detect gamma γ, beta β, neutron and cosmic radiation from natural and man-made sources, identify special nuclear, industrial, medical and natural radioactive sources and measure X-ray and gamma γ radiation exposure.
Type :
RadXplore-identThe novel patented stabilization of the High efficiency Radionuclide-identifier RadXplore-ident is based on the measurement of the quantum photoelectric effect. It requires no built-in source or LED and instantly and automatically compensates for any gain variations due to hysteresis and temperature changes.
RadXplore-ident, in the development of the device, which is powered by a Li-ion battery powered device, great emphasis was placed on comfortable handling as well as a high degree of user-friendliness.
The result is a housing shape and weight that makes the RadXplore-ident highly ergonomic and unique: compact and operable with on hand.
This is because, for the first time, it has been possible to combine a 2”x1” BGO (bismuth germanate) detector with high-precision, high speed digital electronics in a ergonomic, light-weight and waterproof aluminum housing that can be operated with on hand.
The RadXplore-ident convinces in use on land, on water and even under water up to 10 meters diving depth.
With the highest precision, the RadXplore-ident thus provides consistent performance in all conditions and environments, reducing false alarms and shortening decision-making processes in the field.
Especially for missions with unknown risks, the wide measurement range (10 keVee to 1000 MeVee) as well as the dose rate measurement is a convincing advantage.
The sophisticated analog and digital electronics make it possible to measure a wide gamma dose rate range and neutrons with only one BGO crystal.
Low radiation levels can be detected earlier, faster and with higher accuracy than with comparable handheld instruments. Stronger radiation sources are analyzed and identified even at high input rates. With the Easy-Finder function, radiation sources can be found, located and then quickly identified. For example, a radiation source with an activity of 37 kBq Cs-137 is identified within 3 seconds.
Specification:
Technology |
Radionuclide identification device |
Measurement range |
Detecting gamma γ rays emitted from natural and artificial sources β、 Neutrons and cosmic radiation. Identify special nuclear materials, industrial, medical, and natural radiation sources. Measure X-ray and gamma γ exposure rates or environmental dose equivalents. |
BGO detector |
|
Working range |
Gamma and thermal neutron detection |
Material |
Bi4Ge3O12 (Gd2O3) |
Size |
51 Ø x 25 mm3 (2“ x 1”) |
PHR |
9.0 ±1.5 % @ 662 keV |
Energy range |
10 keVee – 1000 MeVee (total)10 keV – 10 MeV (gamma γ rays and X-ray)10 MeVee – 1000 MeVee (cosmic radiation, μ mesotron, charged particle) |
Total dose rate range (cesium-137) |
10 nSv/h - 500 mSv/h (1 μrem/h - 50 rem/h) ±30 % |
Dose rate range ID mode (cesium-137) |
10 nSv/h - 200 μSv/h (1 μrem/h - 20 mrem/h) |
Dose rate range current variance mode (cesium-137) |
200 μSv/h - 500 mSv/h (0,02 rem/h - 50 rem/h) |
Dose rate overload range (cesium-137) |
> 500 mSv/h (50 rem/h) |
Maximum input count rate in ID mode |
100 万 cps (Cesium-137) |
Gamma sensitivity |
1,850 cps/μSv/h (Cesium-137) |
neutron |
According to ANSI N42.34 |
neutron sensitivity |
~5 cps/nv |
Performance |
|
Power on time |
The operation can be completed in less than a minute |
Recognition Time |
Identify 1 µ Ci cesium-137 within 3 seconds (5 centimeters from the crystal center) |
Linearization |
Real time linearization of gamma energy |
User interface update frequency |
0.5 s |
Nuclide library |
> 70 nuclides (exceeding IEC 62327, ANSI N42.34) |