Difference between revisions of "Beta Transmission and Ionization"

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GEANt4  simulated beta particles in the drift region in 90/10 Ar/CO2. U-233 emits beta particles with a range extends up to keV, they are low in rate compared to alpha rate, however, they share in the QDC charge spectrum. GEANT4 was used for simulating the charge for a beta particle that passed through the drift region, and estimated the primary and secondary electrons for each beta particle energy. Also GEANT4 helped in studying the penetration of beta particles for 1mm FR4.
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GEANt4  simulated beta particles in the drift region with a 90/10 Ar/CO2 gas. U-233 emits beta particles with a range extends up to 600 keV, they are low in rate compared to alpha rate, however, they share in the detector total charge. GEANT4 was used for simulating the charge for a beta particle that passed through the drift region, and estimated the primary and secondary electrons for each beta particle energy. Also GEANT4 helped in studying the penetration of beta particles through 1mm FR4 shutter.
  
  

Revision as of 12:59, 8 April 2015

GEANt4 simulated beta particles in the drift region with a 90/10 Ar/CO2 gas. U-233 emits beta particles with a range extends up to 600 keV, they are low in rate compared to alpha rate, however, they share in the detector total charge. GEANT4 was used for simulating the charge for a beta particle that passed through the drift region, and estimated the primary and secondary electrons for each beta particle energy. Also GEANT4 helped in studying the penetration of beta particles through 1mm FR4 shutter.


Beta particles energy rates

Beta particles are emitted from U-233 radioactive isotope, their energy spectrum vs the percentage of the emitted bata is shown in figure XX, according to the figure the rates are lower than 0.1 percent, but it reaches to up to 6 percent for beta energies of 10 keV and 30 keV.

Beta energy percentages.png

Primary and secondary ionization

A simulation for beta ionization is performed using GEANT4. GEANT4 simulated the interaction of a beta particle in the drift region that contained 90/10 Ar/CO2; the simulation estimated the ionization primary and secondary electrons, figure XX and yy show the results.

G4 1cmAr90CO2 Beta primaryElecN.png[1]

The primary and secodary ionization graphsshows that the number of primary and secondary electrons decreased when the incident beta particle increased, which agrees with bethe-Bloch equation for estimating the energy loss.

The figure above shows the number of the primary electrons of betas' ionization in 1 cm of Ar/CO2 90/10.

From the figures above, beta with energy of 400 keV and above contribute with least number of free electrons in the drift region. The number of primary electrons are 10-17 electrons for beta particle above or equal 400 keV , also the percentages of those emitted betas from U-233 are less 0.1%. So, only beta particles with energy less 400keV contribute effectively to the number of free electrons in the drift region.

Betas' Ionization with the FR4 shutter

The FR4 shutter decreases the rate of emitted beta from U-233. the following figure shows the beta particle transmission through a 1 mm of FR4:

E trans 1mmFR4 keV percent.png

80% of Beta particles of 1 MeV penetrate the shutter, and it is close to 100% penetration as beta's energy is above or equal 1.3 MeV. So the shutter stops all beta particles that are lower 400 keV, as mentioned previously, those low energy beta has the major contribution to the total number of free electrons in the drift region.



Electron multiple scattering causes Gamma particles to appear through beta transmission in the FR4. Electron scattering is one of the interactions of beta particles with FR4, photons are produced through this process depending on beta's energy.

E trans FR4 keV gammaN.png

It is noticed from the figure above that the maximum scattering cross section is for 1100 keV beta particles, the number of photons reaches to 1800 for each beta particle that transport through 1cm of FR4.


HAM_Beta_extras