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Principles of Radiation Detection

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Presentation on theme: "Principles of Radiation Detection"— Presentation transcript:

1 Principles of Radiation Detection
Operational Radiological Safety Course U.S. Army Chemical Biological Radiological & Nuclear School Edwin R. Bradley Radiological Lab 031RDB01

2 Terminal Learning Objective
Action: Identify the principles of radiation detection Condition: In a classroom environment, given PowerPoint slides Standards: Identify the 2 principles of radiation detection and the characteristics of sensitive detectors

3 Administrative Data Safety Requirement: None Risk Assessment: Low
Environmental Considerations: None Evaluation: Students must score at least 70% (80% for BOLC) on the end-of-course written test.

4 Two Main Principles of Radiation Detection
Electrical collection of ions Air Ionization Gas Ionization Scintillation Light Production

5 Ionization Chamber Electrical collection of ions
No gas amplification (air) Used to measure dose rate Sensitive to environmental changes Battery or High Voltage Resistor (-) Cathode + - (+) Anode e-

6 Gas Filled Detector (1) (+) Anode Resistor (-) Cathode - +
Battery or High Voltage

7 Gas Filled Detector (2) + e- (+) Anode Resistor (-) Cathode - +
Battery or High Voltage

8 Gas Filled Detector (3) e- (+) Anode Resistor (-) Cathode - +
Battery or High Voltage Resistor (-) Cathode + - (+) Anode e-

9 Gas Filled Detector (4) + e- (+) Anode Resistor (-) Cathode - +
Battery or High Voltage

10 Gas Filled Detector (5) V=IR + (+) Anode Resistor (-) Cathode e- - +
Battery or High Voltage

11 GAS FILLED DETECTOR RESPONSE
Breakdown Region Geiger Mueller Region Log of Electrical Signal Proportional Region Ionization Region Recombination Applied Tube Potential (Voltage)

12 Geiger Mueller Counter
Most common type of detector Gas amplification Multiplication factor Long dead time Energy dependence Variety of uses Count rate Dose/Dose rate Surface activity Battery or High Voltage Resistor (-) Cathode + - (+) Anode e-

13 Gas Filled Detector AN/VDR-2 Beta/Gamma Probe
Measures and detects gamma photon energy Detects moderate to high energy Beta particle emission Neon-halogen gas (Gas Ionization) Display µGy and µGyph to Gy and Gyph Operates in GM region

14 Gas Filled Detector AN/PDR 77 Beta/Gamma Probe
Measures and detects gamma photon energy Detects moderate to high energy Beta particle emission Neon-halogen gas Display 0 – 999K mR/h Operates in GM region

15 Proportional Counters
Alpha-Beta discrimination Gas multiplication 106 Low dead time Used in labs and neutron detectors Alpha+Beta Beta Electrical Signal Background

16 Proportional Counters

17 Scintillation Detector (Light Production)
+ - Scintillator Photo Cathode Focusing cup Dynodes HV Resistor

18 Scintillation Detector (Light Production)
+ - Scintillator Photo Cathode Focusing cup Dynodes HV Resistor e-

19 Scintillation Detector
AN/PDR 77 Alpha Probe (Zinc Sulfide (ZnS) Scintillator) Measures and detects alpha particle radiation in disintegrations per minute (dpm). X-ray Probe (Sodium Iodide (NaI) Scintillator) Primary use to detect fission isotopes Measures and detects Pu239 & U235 x-ray (17 keV & 60 keV average energies from the daughter products of Pu239 and U235).

20 Liquid Scintillation Counter
Low energy beta and alpha Solvent mixed with scintillating material Very low background Laboratory instrument + - Photo multiplier tube Liquid Scintillation Counter Counting Circuit LSC Vial

21 Liquid Scintillation

22 Multi-Channel Analysis
Channel Number (Energy) Number of Counts Photo Peak Compton Edge

23 Multi-Channel Analysis
identiFINDER

24 Thermoluminescent Dosimeter
Stores absorbed energy Crystalline material Read by heating and detecting emitted light Primary occupational dosimeter

25 Thermoluminescent Dosimeter
Whole Body and Wrist TLD Holders Panasonic UD-802AS Dosimeter Harshaw DXT-RAD Ring TLD

26 Semi Conductor Detectors
High energy resolution Low efficiency for gamma (Diode Detector) High efficiency for gamma (Ge Detector) Must be liquid nitrogen cooled (PINS)

27 Semi Conductor Detectors
High-purity Germanium

28 Summary Principles of radiation detection
Electrical collection of ions Gas ionization Air ionization Scintillation - Light production Characteristics of sensitive detectors Dense detecting medium High efficiency Low background

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