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Overview
Liquid Scintillation Counter LMSCL-A100 supports 25-sample automatic changer. It features microcomputer control and dot matrix LCD display with automatic data printing. Equipped with three working modes including quench correction and DPM measurement. Integrated with high detection efficiency and low background counting rate for beta nuclide samples. Our Counter is designed for detecting low-energy β-emitters in research across multiple scientific fields.
Features :
Compact Design
Multiple counting modes
User-friendly interface
Low background noise
Specifications :
| Detection Efficiency (³H) | Greater than or equal to 50% |
| Background Count Rate (³H) | Less than or equal to 40 cpm |
| Detection Efficiency (¹⁴C) | Greater than or equal to 90% |
| Background Count Rate (¹⁴C) | Less than or equal to 60 cpm |
| Working Modes | Counting, Quench Correction, DPM Measurement |
| Fitting Methods | 3/2 Equation, Four-Parameter Equation |
| Ambient Temperature Range | 0 ℃ to 45 ℃ |
| Relative Humidity | Less than or equal to 90% (at 40 ℃) |
| Power Consumption | 85 W |
| Dimensions (L×W×H) | 800 mm × 560 mm × 450 mm |
| Packaging Dimensions | 1050 mm × 810 mm × 700 mm |
| Net Weight | 65 Kg |
| Gross Weight | 115 Kg |
Standard Accessories :
Model No | Accessories | Quantity |
LMSCL-A100-L1 | 20ml low-potassium glass sample bottles | 1 |
LMSCL-A100-P1 | Printing paper | 1 |
LMSCL-A100-R1 | Ribbons | 1 |
LMSCL-A100-U1 | Unquenched Standard Source | 1 |
LMSCL-A100-Q1 | 3H quenching Standard Source | 1 |
LMSCL-A100-Q2 | 14C quenching Standard Source | 1 |
Applications :
Liquid Scintillation Counter LMSCL-A100 is employed to detect low-energy β-nuclide tracer atoms in the analysis of radioactive samples. It is widely applied in industry, agriculture, biomedicine, molecular biology, and environmental science research.
Selection Guide :
Liquid Scintillation Counter LMSCL-A100 is a high-precision instrument designed for the detection and quantification of low-energy beta-emitting isotopes, such as tritium (³H), carbon-14 (¹⁴C), and sulfur-35 (³⁵S). Based on research studies, it is widely used in radiopharmaceutical research, biochemical assays, environmental monitoring, metabolic studies, and nuclear medicine for detecting trace levels of radioactivity. Its features include automated sample loading, dual-label counting, and quench correction, which enhance accuracy and efficiency in laboratories handling multiple samples. The system is often certified with ISO, CE, and GLP compliance, making it suitable for regulated laboratory environments. These capabilities and certifications help customers select this model for high-throughput, accurate, and compliant liquid scintillation analysis across various scientific disciplines.