Difference between revisions of "Radius of Curvature Calculation"
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Below are my calculations done for determining the radius of curvature of an electron/positron in the magnetic field for the pair spectrometer. | Below are my calculations done for determining the radius of curvature of an electron/positron in the magnetic field for the pair spectrometer. | ||
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Charge of an electron (q) = <math>1.6022 * 10^{19} Coulombs</math> | Charge of an electron (q) = <math>1.6022 * 10^{19} Coulombs</math> | ||
− | To get the momentum of the positron/electron the energy of the particle is divided by the speed of the particle (ie <math> 2.99 * 10^8 \frac{m}{s})</math> | + | To get the momentum of the positron/electron the energy of the particle is divided by the speed of the particle (ie <math> 2.99 * 10^8 \frac |
+ | {m}{s})</math> | ||
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+ | Substituting the numbers above into the radius equation gives the following | ||
− | + | <math> \frac{(1*10^6 \frac{kg*m^2}{s^2*C}) * (1.6022 * 10^{-19}C)}{(2.99*10^8\frac{m}{s})*(0.35\frac{kg}{C*s})*(1.6022 * 10^{-19}C)} = | |
+ | 0.009556 meters = 0.9556 cm</math> | ||
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+ | So basically the radius of curvature for the electrons/positrons is ~0.9556cm per MeV | ||
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+ | So for a 7 MeV electron/positron pair the radius of curvature for either particle in a 0.35 T field would be 6.69cm | ||
+ | |||
+ | [http://wiki.iac.isu.edu/index.php/PhotoFission_with_Polarized_Photons_from_HRRL Go Back] |
Latest revision as of 08:57, 17 February 2009
Below are my calculations done for determining the radius of curvature of an electron/positron in the magnetic field for the pair spectrometer.
The Lorentz force is the centripetal force acting upon the electron/positron in the magnetic field which gives the following equation.
This equation can be rearranged to solve for r (and given that mv = momentum) to give the following equation
For this sample equation 1 MeV will be used to determine the radius of curvature per MeV of the incident beam.
Energy = 1 MeV =
Magnetic Field (B) = 0.35 Tesla =
Charge of an electron (q) =
To get the momentum of the positron/electron the energy of the particle is divided by the speed of the particle (ie
Substituting the numbers above into the radius equation gives the following
So basically the radius of curvature for the electrons/positrons is ~0.9556cm per MeV
So for a 7 MeV electron/positron pair the radius of curvature for either particle in a 0.35 T field would be 6.69cm