Scripts for investigating the use of the Sideband Beam to enhance the capture efficiency of the 2-D MOT.

2021-07-19 12:55:17 +02:00 · 2021-07-19 12:55:17 +02:00 · 5f068db1c1
commit 5f068db1c1
parent 090b08840c
2 changed files with 81 additions and 0 deletions
--- a/+Scripts/optimizingForSidebandEnhancement.m
+++ b/+Scripts/optimizingForSidebandEnhancement.m
@ -0,0 +1,48 @@
 OptionsStruct = struct;
 OptionsStruct.ErrorEstimationMethod   = 'bootstrap'; % 'jackknife' | 'bootstrap'
 OptionsStruct.NumberOfAtoms           = 5000;
 OptionsStruct.TimeStep                = 50e-06; % in s
 OptionsStruct.SimulationTime          =  4e-03; % in s
 OptionsStruct.SpontaneousEmission     = true;
 OptionsStruct.SidebandBeam            = true;
 OptionsStruct.PushBeam                = true;
 OptionsStruct.Gravity                 = true;
 OptionsStruct.BackgroundCollision     = true;
 OptionsStruct.SaveData                = true;
 % OptionsStruct.SaveDirectory           = '';
 options                               = Helper.convertstruct2cell(OptionsStruct);
 clear OptionsStruct
 Oven         = Simulator.Oven(options{:});
 MOT2D        = Simulator.TwoDimensionalMOT(options{:});
 %%
 MOT2D.NumberOfAtoms           = 5000;
 MOT2D.TotalPower              = 0.4;
 MOT2D.SidebandBeam            = true;
 NumberOfPointsForFirstParam   = 10; %iterations of the simulation
 NumberOfPointsForSecondParam  = 10;
 DetuningArray                 = linspace(-0.5, -5.0, NumberOfPointsForFirstParam)  * Helper.PhysicsConstants.BlueLinewidth;
 PowerArray                    = linspace(0.1,   1.0, NumberOfPointsForSecondParam) * MOT2D.TotalPower;
 tStart = tic;
 [LoadingRateArray, ~, ~]      = Scripts.scanForSidebandEnhancement(Oven, MOT2D, 'Blue', 'BlueSideband', DetuningArray, PowerArray);
 tEnd = toc(tStart);
 fprintf('Total Computational Time: %0.1f seconds. \n', tEnd);
 % - Plot results
 OptionsStruct = struct;
 OptionsStruct.RescalingFactorForFirstParameter      = (Helper.PhysicsConstants.BlueLinewidth)^-1;
 OptionsStruct.XLabelString                          = 'Sideband Beam Detuning (\Delta/\Gamma)';
 OptionsStruct.RescalingFactorForSecondParameter     = 1000;
 OptionsStruct.YLabelString                          = 'Sideband Beam Power (mW)';
 OptionsStruct.RescalingFactorForQuantityOfInterest  = 1e-9;
 OptionsStruct.ZLabelString                          = 'Loading rate (x 10^{9} atoms/s)';
 OptionsStruct.TitleString                           = sprintf('Magnetic Gradient = %.0f (G/cm)', MOT2D.MagneticGradient * 100);
 options                                             = Helper.convertstruct2cell(OptionsStruct);
 Plotter.plotResultForTwoParameterScan(DetuningArray, PowerArray, LoadingRateArray, options{:})
 clear OptionsStruct
--- a/+Scripts/scanForSidebandEnhancement.m
+++ b/+Scripts/scanForSidebandEnhancement.m
@ -0,0 +1,33 @@
 function [LoadingRateArray, StandardErrorArray, ConfidenceIntervalArray] = scanForSidebandEnhancement(ovenObj, MOTobj, CBBeamName, SBBeamName, SBDetuningArray, SBPowerArray)
    Beams                         = MOTobj.Beams;
    CoolingBeam                   = Beams{cellfun(@(x) strcmpi(x.Alias, CBBeamName), Beams)};                                       
    SidebandBeam                  = Beams{cellfun(@(x) strcmpi(x.Alias, SBBeamName), Beams)};                                       
    NumberOfPointsForFirstParam   = length(SBDetuningArray);
    NumberOfPointsForSecondParam  = length(SBPowerArray);
    LoadingRateArray              = zeros(NumberOfPointsForFirstParam, NumberOfPointsForSecondParam);
    StandardErrorArray            = zeros(NumberOfPointsForFirstParam, NumberOfPointsForSecondParam);
    ConfidenceIntervalArray       = zeros(NumberOfPointsForFirstParam, NumberOfPointsForSecondParam, 2);
    for i=1:NumberOfPointsForFirstParam
        eval(sprintf('SidebandBeam.%s = %d;', 'Detuning', SBDetuningArray(i)));
        for j=1:NumberOfPointsForSecondParam
            eval(sprintf('SidebandBeam.%s = %d;', 'Power', SBPowerArray(j)));
            eval(sprintf('CoolingBeam.%s = %d;',  'Power', MOTobj.TotalPower - SBPowerArray(j)));
            [LoadingRateArray(i,j), StandardErrorArray(i,j), ConfidenceIntervalArray(i,j,:)] = MOTobj.runSimulation(ovenObj);
        end
    end
    if MOTobj.DoSave
        LoadingRate  = struct;
        LoadingRate.Values = LoadingRateArray;
        LoadingRate.Errors = StandardErrorArray;
        LoadingRate.CI     = ConfidenceIntervalArray;
        MOTobj.Results = LoadingRate;
        SaveFolder   = [MOTobj.SaveDirectory filesep 'Results'];
        Filename     = ['TwoParameterScan_' datestr(now,'yyyymmdd_HHMM')];
        eval([sprintf('%s_Object', Filename) ' = MOTobj;']);
        mkdir(SaveFolder);
        save([SaveFolder filesep Filename], sprintf('%s_Object', Filename));
    end
 end