Tubes. Michael Mastanduno Kelly Michaelsen
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1 Introduction to Photomultiplier Tubes Michael Mastanduno Kelly Michaelsen
2 Outline History Review Photoelectric Effect and Secondary Emission PMT Overview PMT Parts Breakdown-Photocathode, Dynode, Anode PMT Timing, Linearity, Uniformity Materials of PMT Dark Current Quantum Efficiency Single Photon Counting Applications
3 History 1902 Secondary Emission 1905: Photoelectric Effect 1934: First photomultiplier Ongoing improvements by RCA corporation Today, Japan based Hamamatsu Photonics is a leader
4 Photoelectric Effect
5 Secondary Emission Metallic Surface Incoming Electron Outgoing Electrons
6 Photomultiplier Tubes Window-Interface with the World Photocathode-Easily Ionized Metal Dynodes-Different Voltage Potentials Anode-Photocurrent Produced photomultiplier/index.html
7 Photocathode Thin deposit on the entry window of the PMT Electrons made due to the photoelectric effect Focusing electrode focuses the electrons toward the dynodes Electrons leave with the energy of the incoming photons minus the work function of the photocathode
8 Dynode Each dynode is held at a higher positive voltage than the previous one Electrons accelerate between dynodes Emit more electrons with each dynode thanks to secondary emission coating
9 Anode Site of charge accumulation Current pulse emitted Peak Current = Gain*e/FWHM for single e mpmt.pdf
10 Timing PMTson the whole have fast time response Rise Time-from 10 to 90% increase in peak height Fall Time-from 10 to 90% decrease in peak height Transit Time-Photocathode to Anode Fast PMT-Spherical inner window
11 Linearity For each incident photon, signal is the same If too much light, linearity affected by anode If too little light, linearity affected by dynode C. Carpenter
12 Uniformity Variation in output sensitivity depending on the position (of photocathode or anode) Uniformity decreases at longer wavelength
13 Photomultiplier Tube Types Head On or End On Design Side On Design ia/commons/3/36/pmside.jpg /products/etd/det/pmt/photo/r7639_p.jpg
14 Window Types Determines the short wavelength limit for the PMT
15 Photocathode Types Semiconductor of Alkali metal with low work function About 10 used depending on the desired function Reflection (Opaque) or Transmission (Semitransparent) Types s.com/image/mcpsinglephotocathode.jpg
16 Spectral Response
17 Dynode Types
18 Dark Current Small current always running Caused by: Radiation Components base current Max QE just below radiant sensitivity
19 Quantum Efficiency Usually expressed in % Highest for photons just below peak sensitivity
20 Photon Counting Mode Gain set high enough (100 db) to get current from 1 photon Lower quantum efficiency means not all photons counted Raman spectroscopy and fluorescence analysis
21 Stability in Single Photon Mode
22 Applications Electric Eyes Nuclear and particle radiation detectors Measuring intensity and spectrum of light emitting materials Nuclear medicine, microscopy Chemical analysis
23 Hamamatsu R6357 PMT Side on detection λ= 185 to 900 nm Peak sensitivity 450nm UV Glass window Multialkali Photocathode
24 Light Detection Large dynamic range Tuneablegain settings applied to the dynode chain
25 PMT Calibration C. Carpenter
26 PMT Noise C. Carpenter
27 Amplitude vs. Phase
28 PMT Noise Amplitude output voltages 100 mv to 1 V Phase output voltage good 8 mv to 1V Repeatability suffers for lower light levels (<100mV) C. Carpenter
29 Outline History Review Photoelectric Effect and Secondary Emission PMT Overview PMT Parts Breakdown-Photocathode, Dynode, Anode PMT Timing, Linearity, Uniformity Materials of PMT Dark Current Quantum Efficiency Single Photon Counting Applications
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