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Average velocity of the distribution of atoms inside the oven here cancels with the normalization of the distribution of atoms coming out of the oven so it can be removed as long as that normalization is also removed!

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Karthik 2021-07-14 20:04:34 +02:00
parent 89aca91067
commit 411375b464
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MOT Capture Process Simulation/@MOTSimulator/calculateFreeMolecularRegimeFlux.m
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@ -3,7 +3,7 @@ function ret = calculateFreeMolecularRegimeFlux(this)
%See Expected atomic flux section in Barbiero %See Expected atomic flux section in Barbiero
Dy164VapourPressure = 133.322*exp(11.4103-2.3785e+04./(-219.4821+this.OvenTemperatureinKelvin)).*100; % Vapor Pressure Dysprosium for the given oven temperature Dy164VapourPressure = 133.322*exp(11.4103-2.3785e+04./(-219.4821+this.OvenTemperatureinKelvin)).*100; % Vapor Pressure Dysprosium for the given oven temperature
Dy164DensityinOven = Dy164VapourPressure/(Helper.PhysicsConstants.BoltzmannConstant*this.OvenTemperatureinKelvin); Dy164DensityinOven = Dy164VapourPressure/(Helper.PhysicsConstants.BoltzmannConstant*this.OvenTemperatureinKelvin);
ret = Helper.PhysicsConstants.Dy164IsotopicAbundance * 1/4 * Dy164DensityinOven * this.AverageVelocity * pi * this.NozzleRadius.^2; ret = Helper.PhysicsConstants.Dy164IsotopicAbundance * 1/4 * Dy164DensityinOven * pi * this.NozzleRadius.^2;
% Needs to be multiplied with the "Clausing Factor" which here would be % Needs to be multiplied with the "Clausing Factor" which here would be
% the probability not for the full solid angle but the angle subtended % the probability not for the full solid angle but the angle subtended
% by the aperture of the oven at its mouth. % by the aperture of the oven at its mouth.