public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters);
p.AddChannel("aom0frequency");
p.AddChannel("aom1frequency");
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddChannel("aom0amplitude");
p.AddChannel("aom1amplitude");
p.AddChannel("aom3amplitude");
p.AddChannel("offsetlockfrequency");
p.AddAnalogValue("coil0current", 0, 0);
p.AddAnalogValue("coil1current", 0, 0);
p.AddAnalogValue("aom3amplitude", 0, 5.3);
p.AddAnalogValue("aom3frequency", 0, 198);
p.AddLinearRamp("aom3frequency", 10000, 10, 203);
//p.AddAnalogValue("coil0current", 30000, 1.6);
//p.AddAnalogValue("coil1current", 30000, 2.1);
//p.AddLinearRamp("coil0current", 30000,4, 0);//bottom coil
//p.AddLinearRamp("coil1current", 30001,3, 1.7);//top coil
//p.AddLinearRamp("coil0current", 30007, 11, 0);//bottom coil
//p.AddLinearRamp("coil1current", 30008, 10, 0);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
// Add Analog Channels
p.AddChannel("v0IntensityRamp");
p.AddChannel("v0FrequencyRamp");
// B Field
// For the delta electronica box (bottom MOT coil) - top coil is in digital section
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentRampStartValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOff"], 0);
// v0 Intensity Ramp
p.AddAnalogValue("v0IntensityRamp", 0, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v0FrequencyRamp", 0, (double)Parameters["v0FrequencyRampStartValue"]);
p.AddAnalogValue("v0FrequencyRamp", (int)Parameters["v0FrequencyRampStartTime"], (double)Parameters["v0FrequencyRampEndValue"]);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters);
p.AddChannel("aom0frequency");
p.AddChannel("aom1frequency");
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddAnalogValue("coil0current", 0, 0);
p.AddAnalogValue("coil1current", 0, 0);
p.AddAnalogValue("aom0frequency", 0, (double)Parameters["aom0Detuning"]);
p.AddAnalogValue("aom1frequency", 0, (double)Parameters["aom1Detuning"]);
p.AddAnalogValue("aom2frequency", 0, (double)Parameters["aom2Detuning"]);
p.AddAnalogValue("aom3frequency", 0, (double)Parameters["aom3Detuning"]);
p.AddAnalogValue("aom3frequency", (int)Parameters["Frame0Trigger"] - 10, (double)Parameters["absImageDetuning"]);
p.AddAnalogPulse("coil0current", (int)Parameters["MOTLoadDuration"], (int)Parameters["ReleaseTime"], 0, (double)Parameters["BottomMOTCoilCurrent"]);
p.AddAnalogPulse("coil1current", (int)Parameters["MOTLoadDuration"], (int)Parameters["ReleaseTime"], 0, (double)Parameters["TopMOTCoilCurrent"]);
p.AddAnalogValue("coil0current", 110000, 0);
p.AddAnalogValue("coil1current", 110000, 0);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
// Add Analog Channels
p.AddChannel("v0IntensityRamp");
p.AddChannel("v0FrequencyRamp");
// B Field
// For the delta electronica box (bottom MOT coil) - top coil is in digital section
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTSwitchOffTime"], 0);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
// v0 Intensity Ramp
p.AddAnalogValue("v0IntensityRamp", 0, (double)Parameters["v0IntensityRampStartValue"]);
p.AddLinearRamp("v0IntensityRamp", (int)Parameters["v0IntensityRampStartTime"], (int)Parameters["v0IntensityRampDuration"], (double)Parameters["v0IntensityRampEndValue"]);
p.AddAnalogValue("v0IntensityRamp", (int)Parameters["MOTSwitchOffTime"] + 100, (double)Parameters["v0IntensityMolassesValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v0FrequencyRamp", 0, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyStartValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]);
p.AddAnalogValue("v0FrequencyRamp", (int)Parameters["MOTSwitchOffTime"] + 100, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyNewValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]); //jump to blue detuning
p.AddAnalogValue("v0FrequencyRamp", (int)Parameters["MOTSwitchOffTime"] + (int)Parameters["MolassesDuration"] + (int)Parameters["ExpansionTime"], ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyStartValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]); //jump aom frequency back to normal for imaging
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
int imageTime = (int)Parameters["LoadingDuration"];
// Add Analog Channels
p.AddChannel("MOTCoilsCurrent");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("rbCoolingIntensity");
p.AddChannel("rbCoolingFrequency");
// B Field
p.AddAnalogValue("MOTCoilsCurrent", 0, (double)Parameters["MOTCoilsCurrentValue"]);
p.AddAnalogValue("MOTCoilsCurrent", imageTime + 2000, 0.0);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
// Cooling Intensity
p.AddAnalogValue("rbCoolingIntensity", 0, (double)Parameters["rbCoolingMOTIntensity"]);
// Cooling frequency
p.AddAnalogValue("rbCoolingFrequency", 0, (double)Parameters["rbCoolingMOTLoadingFrequency"]);
p.AddAnalogValue("rbCoolingFrequency", imageTime - 200, (double)Parameters["rbCoolingImagingFrequency"]);
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
p.AddChannel("aom0frequency");
p.AddChannel("aom1frequency");
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddChannel("aom0amplitude");
p.AddChannel("aom1amplitude");
p.AddChannel("coil0current");
p.AddChannel("coil1current");
p.AddAnalogValue("coil0current", 0, 0);
p.AddAnalogValue("coil1current", 0, 0);
p.AddAnalogValue("aom0frequency", 0, (double)Parameters["aom0Detuning"]);
p.AddAnalogValue("aom1frequency", 0, (double)Parameters["aom1Detuning"]);
p.AddAnalogValue("aom2frequency", 0, (double)Parameters["aom2Detuning"]);
p.AddAnalogValue("aom3frequency", 0, (double)Parameters["aom3Detuning"]);
p.AddAnalogValue("aom0amplitude", 0, 6.0);
p.AddAnalogValue("aom1amplitude", 0, 6.0);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public void AddAnalogSnippet(AnalogPatternBuilder p, Dictionary <String, Object> parameters)
{
p.AddChannel("BottomTrappingCoilcurrent");
p.AddChannel("TopTrappingCoilcurrent");
p.AddChannel("xcoilcurrent");
p.AddChannel("ycoilcurrent");
p.AddChannel("zcoilcurrent");
p.AddAnalogValue("xcoilcurrent", (int)parameters["MOTStartTime"], (double)parameters["XCoilCurrent"]);
p.AddAnalogValue("ycoilcurrent", (int)parameters["MOTStartTime"], (double)parameters["YCoilCurrent"]);
p.AddAnalogValue("zcoilcurrent", (int)parameters["MOTStartTime"], (double)parameters["ZCoilCurrent"]);
p.AddAnalogValue("BottomTrappingCoilcurrent", (int)parameters["MOTStartTime"], (double)parameters["BottomVacCoilCurrent"]);
p.AddAnalogValue("TopTrappingCoilcurrent", (int)parameters["MOTStartTime"], (double)parameters["TopVacCoilCurrent"]);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
p.AddChannel("MWGeneratorAM");
p.AddAnalogValue("MWGeneratorAM", 0, (double)Parameters["MWStartPower"]);
//Ramp the power linearly by ramping the dBm logarhythmically{
p.AddLinFromDbRamp("MWGeneratorAM", (int)Parameters["MWStartTime"], 100000, (double)Parameters["MWOnPower"]);
p.AddLinFromDbRamp("MWGeneratorAM", (int)Parameters["MWRampDownTime"], 5000, (double)Parameters["MWFinalPower"]);
//}
//Ramp the dBm linearly{
//p.AddLinearRamp("MWGeneratorAM", 90000,100,(double)Parameters["MWOnPower"]-6.0);//switch to quarter of the input power over 10ms
//p.AddLinearRamp("MWGeneratorAM", 90100, 400, (double)Parameters["MWOnPower"]);
//p.AddLinearRamp("MWGeneratorAM",135000,500,(double)Parameters["MWFinalPower"]);
//}
//p.AddAnalogValue("TopTrappingCoilcurrent", 90000, 0.0);
//p.AddAnalogValue("BottomTrappingCoilcurrent", 90000,0.0);
p.SwitchAllOffAtEndOfPatternExcept(new string[] { "MWGeneratorAM" });
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters);
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddAnalogValue("coil0current", 0, 0);
p.AddAnalogValue("aom2frequency", 0, (double)Parameters["aom2Detuning"]);
p.AddAnalogValue("aom3frequency", 0, (double)Parameters["aom3Detuning"]);
p.AddAnalogValue("coil0current", 120000, 0);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// B Field
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOff"], 0.0);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
// trigger delay
// p.AddAnalogValue("triggerDelay", 0, (double)Parameters["triggerDelay"]);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 5.48);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, (double)Parameters["v0FrequencyStartValue"]);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
p.AddChannel("offsetlockfrequency");
p.AddAnalogValue("offsetlockfrequency", 0, 9.0);
p.SwitchAllOffAtEndOfPatternExcept(new string[] { "offsetlockfrequency" });
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("v00Chirp");
p.AddChannel("transferCoils");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// Use for transport trap
p.AddAnalogValue("transferCoils", 0, 0.0);
p.AddLinearRamp("transferCoils", 10, 10000, 5.0);
p.AddLinearRamp("transferCoils", 90010, 10000, 0.0);
//p.AddAnalogValue("transferCoils", 0, 0.0);
//p.AddAnalogValue("transferCoils", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentRampStartValue"]);
//p.AddLinearRamp("transferCoils", (int)Parameters["MOTCoilsCurrentRampStartTime"], (int)Parameters["MOTCoilsCurrentRampDuration"], (double)Parameters["MOTCoilsCurrentRampEndValue"]);
/*
* // Shim Fields
* p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
* p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
* p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
*/
// trigger delay
// p.AddAnalogValue("triggerDelay", 0, (double)Parameters["triggerDelay"]);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 4.7);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, (double)Parameters["v0FrequencyStartValue"]);
//v0 chirp
p.AddAnalogValue("v00Chirp", 0, 0.0);
return(p);
}
public void AddAnalogSnippet(AnalogPatternBuilder p, Dictionary <String, Object> parameters)
{
p.AddChannel("slowingChirp");
p.AddChannel("slowingCoilsCurrent");
p.AddChannel("MOTCoilsCurrent");
// Slowing Chirp
p.AddAnalogValue("slowingChirp", 0, (double)parameters["SlowingChirpStartValue"]);
p.AddLinearRamp("slowingChirp", (int)parameters["SlowingChirpStartTime"], (int)parameters["SlowingChirpDuration"], (double)parameters["SlowingChirpEndValue"]);
p.AddLinearRamp("slowingChirp", (int)parameters["SlowingChirpStartTime"] + (int)parameters["SlowingChirpDuration"] + 200, (int)parameters["SlowingChirpDuration"], (double)parameters["SlowingChirpStartValue"]);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
p.AddChannel("TopTrappingCoilcurrent");
p.AddChannel("BottomTrappingCoilcurrent");
p.AddAnalogValue("TopTrappingCoilcurrent", 0, (double)Parameters["TopCoilCurrent"]);
p.AddAnalogValue("BottomTrappingCoilcurrent", 0, (double)Parameters["BottomCoilCurrent"]);
//p.AddAnalogValue("TopTrappingCoilcurrent", 90000, 0.0);
//p.AddAnalogValue("BottomTrappingCoilcurrent", 90000,0.0);
p.SwitchAllOffAtEndOfPatternExcept(new string[] { });
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters);
p.AddAnalogPulse("coil0current", (int)Parameters["MOTLoadDuration"], (int)Parameters["ReleaseTime"], 0, (double)Parameters["MOTCoilsCurrent"]);
p.AddAnalogValue("coil0current", 115000, 0);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
// Add Analog Channels
p.AddChannel("slowingChirp");
p.AddChannel("v0IntensityRamp");
p.AddChannel("v0FrequencyRamp");
p.AddChannel("MOTCoilsCurrent");
// B Field
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentRampStartValue"]);
if ((bool)Parameters["MOTCoilsRampActive"])
{
p.AddLinearRamp("MOTCoilsCurrent", (int)Parameters["MOTCoilsCurrentRampStartTime"], (int)Parameters["MOTCoilsCurrentRampDuration"], (double)Parameters["MOTCoilsCurrentRampEndValue"]);
}
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOff"], 0);
// Slowing Chirp
p.AddAnalogValue("slowingChirp", 0, (double)Parameters["SlowingChirpStartValue"]);
p.AddLinearRamp("slowingChirp", (int)Parameters["SlowingChirpStartTime"], (int)Parameters["SlowingChirpDuration"], (double)Parameters["SlowingChirpEndValue"]);
p.AddLinearRamp("slowingChirp", (int)Parameters["SlowingChirpStartTime"] + (int)Parameters["SlowingChirpDuration"], (int)Parameters["SlowingChirpDuration"], (double)Parameters["SlowingChirpStartValue"]);
// v0 Intensity Ramp
p.AddAnalogValue("v0IntensityRamp", 0, (double)Parameters["v0IntensityRampStartValue"]);
p.AddLinearRamp("v0IntensityRamp", (int)Parameters["v0IntensityRampStartTime"], (int)Parameters["v0IntensityRampDuration"], (double)Parameters["v0IntensityRampEndValue"]);
p.AddAnalogValue("v0IntensityRamp", (int)Parameters["MOTAOMStartTime"], (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v0FrequencyRamp", 0, (double)Parameters["v0FrequencyRampStartValue"]);
p.AddLinearRamp("v0FrequencyRamp", (int)Parameters["v0FrequencyRampStartTime"], (int)Parameters["v0FrequencyRampDuration"], (double)Parameters["v0FrequencyRampEndValue"]);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOTNoSlowingEdge(p, Parameters);
// Add Analog Channels
p.AddChannel("v0IntensityRamp");
p.AddChannel("v0FrequencyRamp");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
// B Field
// For the delta electronica box (bottom MOT coil)
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentRampStartValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOff"], 0);
// For BOP
p.AddAnalogValue("MOTBOPCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTBOPCoilsCurrentStartValue"]);
p.AddAnalogValue("MOTBOPCoilsCurrent", (int)Parameters["MOTCoilsSwitchOff"], (double)Parameters["MOTBOPCoilsCurrentMolassesValue"]);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
// v0 Intensity Ramp
p.AddAnalogValue("v0IntensityRamp", 0, (double)Parameters["v0IntensityRampStartValue"]);
p.AddLinearRamp("v0IntensityRamp", (int)Parameters["v0IntensityRampStartTime"], (int)Parameters["v0IntensityRampDuration"], (double)Parameters["v0IntensityRampEndValue"]);
p.AddAnalogValue("v0IntensityRamp", (int)Parameters["PokeStartTime"] + (int)Parameters["PokeDuration"] + (int)Parameters["FreeFlightTime"], (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v0FrequencyRamp", 0, (double)Parameters["v0FrequencyRampStartValue"]);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
p.AddChannel("offsetlockfrequency");
p.AddAnalogValue("offsetlockfrequency", 0, (double)Parameters["StartOLF"]);
p.AddLinearRamp("offsetlockfrequency", (int)Parameters["SwitchTime"], 100, (double)Parameters["FinalOLF"]);
p.SwitchAllOffAtEndOfPatternExcept(new string[] { "offsetlockfrequency" });
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
p.AddChannel("v0FrequencyRamp");
p.AddAnalogValue(
"v0FrequencyRamp",
0,
0
);
int timeStep = 1000;
int cumalativeTime = 10000;
while (cumalativeTime < 40000)
{
p.AddAnalogValue(
"v0FrequencyRamp",
cumalativeTime + timeStep,
7.17
);
p.AddAnalogValue(
"v0FrequencyRamp",
cumalativeTime + 3 * timeStep,
0
);
cumalativeTime += (4 * timeStep);
}
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public void AddAnalogSnippet(AnalogPatternBuilder p, Dictionary <String, Object> parameters)
{
int patternStartBeforeQ = (int)parameters["TCLBlockStart"];
int slowingChirpStartTime = patternStartBeforeQ + (int)parameters["SlowingChirpStartTime"];
int slowingNewDetuningTime = slowingChirpStartTime + (int)parameters["SlowingChirpDuration"];
int slowingChirpBackTime = slowingNewDetuningTime + (int)parameters["SlowingChirpHoldDuration"];
int slowingChirpFinishedTime = slowingChirpBackTime + (int)parameters["SlowingChirpDuration"];
p.AddChannel("slowingChirp");
p.AddChannel("slowingCoilsCurrent");
p.AddChannel("MOTCoilsCurrent");
// Slowing Chirp
p.AddAnalogValue("slowingChirp", 0, (double)parameters["SlowingChirpStartValue"]);
p.AddLinearRamp("slowingChirp", slowingChirpStartTime, (int)parameters["SlowingChirpDuration"], (double)parameters["SlowingChirpEndValue"]);
p.AddLinearRamp("slowingChirp", slowingNewDetuningTime, 200, (double)parameters["PokeDetuningValue"]);
p.AddLinearRamp("slowingChirp", slowingChirpBackTime, (int)parameters["SlowingChirpDuration"], (double)parameters["SlowingChirpStartValue"]);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters); //loading the MOT
p.AddChannel("aom1frequency");
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddChannel("aom1amplitude");
p.AddChannel("aom2amplitude");
p.AddChannel("aom3amplitude");
p.AddChannel("D1EOMfrequency");
p.AddChannel("D1EOMamplitude");
p.AddChannel("D2EOMfrequency");
p.AddChannel("D2EOMamplitude");
p.AddChannel("offsetlockfrequency");
p.AddAnalogValue("D2EOMfrequency", 0, (double)Parameters["MotRepumpFrequency"]);
p.AddAnalogValue("D2EOMamplitude", 0, (double)Parameters["MotRepumpAmplitude"]);
p.AddAnalogValue("aom3frequency", 0, (double)Parameters["aom3Detuning"]);
p.AddAnalogValue("aom3amplitude", 0, 6.0); //setting up the MOT parameters
p.AddAnalogValue("TopTrappingCoilcurrent", (int)Parameters["MOTEndTime"], 0);
p.AddAnalogValue("BottomTrappingCoilcurrent", (int)Parameters["MOTEndTime"], 0);
//Taking the pictures
p.AddAnalogValue("aom1frequency", (int)Parameters["Frame0Trigger"] - 1, (double)Parameters["absImageDetuning"]);
p.AddAnalogValue("aom1amplitude", (int)Parameters["Frame0Trigger"] - 1, (double)Parameters["absImagePower"]);
p.AddAnalogValue("aom1amplitude", (int)Parameters["Frame1Trigger"] - 1, (double)Parameters["backgroundImagePower"]);
p.SwitchAllOffAtEndOfPatternExcept(new string[] { "offsetlockfrequency", "xcoilCurrent", "ycoilcurrent", "zcoilcurrent" });
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
p.AddChannel("v0FrequencyRamp");
p.AddAnalogValue(
"v0FrequencyRamp",
0,
((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyNewValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]
);
int timeStep = 1000;
int cumalativeTime = 10000;
//while (cumalativeTime < 40000)
//{
// p.AddAnalogValue(
// "v0FrequencyRamp",
// cumalativeTime + timeStep,
// ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyNewValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]
// );
// p.AddAnalogValue(
// "v0FrequencyRamp",
// cumalativeTime + 3 * timeStep,
// ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyStartValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]
// );
// cumalativeTime += (4 * timeStep);
//}
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters);
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddAnalogValue("coil0current", 0, 0);
p.AddAnalogValue("aom2frequency", (int)Parameters["MOTStartTime"], 180.875);
p.AddAnalogValue("aom3frequency", (int)Parameters["MOTStartTime"], 220.875);
p.AddAnalogValue("aom2frequency", (int)Parameters["Frame0Trigger"], 200.875);
p.AddAnalogValue("aom3frequency", (int)Parameters["Frame0Trigger"], 200.875);
p.AddAnalogValue("coil0current", 100100, 0);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
int molassesStartTime = (int)Parameters["MOTSwitchOffTime"] + (int)Parameters["MolassesDelay"];
int molassesRampTime = molassesStartTime + (int)Parameters["MolassesHoldTime"];
int v00ChirpTime = molassesRampTime + (int)Parameters["MolassesRampDuration"];
int singleFrequencyMolassesTime = v00ChirpTime + (int)Parameters["v00ChirpDuration"] + (int)Parameters["v00ChirpWait"];
int releaseTime = singleFrequencyMolassesTime + (int)Parameters["SingleFreqMolassesDuration"];
int levitateTime = releaseTime + (int)Parameters["LevitateWait"];
int cameraTriggerTime = releaseTime + (int)Parameters["ExpansionTime"];
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("v00Chirp");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
//// B Field
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentRampStartValue"]);
p.AddLinearRamp("MOTCoilsCurrent", (int)Parameters["MOTCoilsCurrentRampStartTime"], (int)Parameters["MOTCoilsCurrentRampDuration"], (double)Parameters["MOTCoilsCurrentRampEndValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTSwitchOffTime"], (double)Parameters["MOTCoilsCurrentMolassesValue"]);
p.AddAnalogValue("MOTCoilsCurrent", levitateTime, (double)Parameters["MOTCoilsCurrentLevitateValue"]);
p.AddAnalogValue("MOTCoilsCurrent", cameraTriggerTime + 1000, 0.0);
//// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
//p.AddAnalogValue("zShimCoilCurrent", releaseTime, (double)Parameters["zShimLevitateCurrent"]);
//p.AddAnalogValue("zShimCoilCurrent", cameraTriggerTime + 1000, (double)Parameters["zShimLoadCurrent"]);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
p.AddLinearRamp("v00Intensity", (int)Parameters["v0IntensityRampStartTime"], (int)Parameters["v0IntensityRampDuration"], (double)Parameters["v0IntensityRampEndValue"]);
p.AddAnalogValue("v00Intensity", molassesStartTime, (double)Parameters["v0IntensityMolassesValue"]);
p.AddAnalogValue("v00Intensity", molassesRampTime + 50, 7.4);
p.AddAnalogValue("v00Intensity", molassesRampTime + 100, 7.83);
p.AddAnalogValue("v00Intensity", molassesRampTime + 200, 8.09);
p.AddAnalogValue("v00Intensity", singleFrequencyMolassesTime, (double)Parameters["v0IntensitySingleFreqMolassesValue"]);
p.AddAnalogValue("v00Intensity", singleFrequencyMolassesTime + 200, 7.21);
p.AddAnalogValue("v00Intensity", singleFrequencyMolassesTime + 300, 7.61);
p.AddAnalogValue("v00Intensity", singleFrequencyMolassesTime + 400, 8.09);
p.AddAnalogValue("v00Intensity", cameraTriggerTime, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Chirp
p.AddAnalogValue("v00Chirp", 0, 0.0);
p.AddLinearRamp("v00Chirp", v00ChirpTime, (int)Parameters["v00ChirpDuration"], (double)Parameters["v00ChirpAmplitude"]);
p.AddLinearRamp("v00Chirp", releaseTime, (int)Parameters["v00ChirpDuration"], 0.0);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 5.3);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyStartValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]);
p.AddAnalogValue("v00Frequency", molassesStartTime, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyNewValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]); //jump to blue detuning
p.AddAnalogValue("v00Frequency", releaseTime, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyImageValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]); //jump aom frequency back to normal for imaging
p.AddAnalogValue("v00Frequency", cameraTriggerTime + 3000, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyStartValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]); //jump aom frequency back to normal for imaging
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new SHLoadMOT(p, Parameters); //loading the MOT
p.AddChannel("aom1frequency");
p.AddChannel("aom2frequency");
p.AddChannel("aom3frequency");
p.AddChannel("aom1amplitude");
p.AddChannel("aom2amplitude");
p.AddChannel("aom3amplitude");
p.AddChannel("D1EOMfrequency");
p.AddChannel("D1EOMamplitude");
p.AddChannel("D2EOMfrequency");
p.AddChannel("D2EOMamplitude");
p.AddAnalogValue("coil0current", 0, 0);
p.AddAnalogValue("coil1current", 0, 0);
p.AddAnalogValue("D2EOMfrequency", 0, (double)Parameters["MotRepumpFrequency"]);
p.AddAnalogValue("D2EOMamplitude", 0, (double)Parameters["MotRepumpAmplitude"]);
p.AddAnalogValue("aom3frequency", 0, (double)Parameters["aom3Detuning"]);
p.AddAnalogValue("aom3amplitude", 0, 6.0); //setting up the MOT parameters
p.AddAnalogValue("coil0current", (int)Parameters["Frame1Trigger"] - 500, 0);
p.AddAnalogValue("coil1current", (int)Parameters["Frame1Trigger"] - 500, 0);
//Taking the pictures
p.AddAnalogValue("D2EOMfrequency", (int)Parameters["Frame0Trigger"] - 5, (double)Parameters["absImageRepumpDetuning"]);
p.AddAnalogValue("D2EOMamplitude", (int)Parameters["Frame0Trigger"] - 5, (double)Parameters["absImageRepumpAmplitude"]);
p.AddAnalogValue("aom1frequency", (int)Parameters["Frame0Trigger"] - 5, (double)Parameters["absImageDetuning"]);
p.AddAnalogValue("aom1amplitude", (int)Parameters["Frame0Trigger"] - 5, (double)Parameters["absImagePower"]);
p.SwitchAllOffAtEndOfPattern();
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
int motLoadingEndTime = 5000;
int motSwitchOffTime = motLoadingEndTime + (int)Parameters["v0IntensityRampDuration"];
int cameraTriggerTime = motSwitchOffTime + (int)Parameters["FreeExpansionTime"];
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("v00Chirp");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// B Field
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentValue"]);
p.AddAnalogValue("MOTCoilsCurrent", motSwitchOffTime, -0.1); //Switch off MOT coils to let cloud expand
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
// trigger delay
// p.AddAnalogValue("triggerDelay", 0, (double)Parameters["triggerDelay"]);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 4.7);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
p.AddLinearRamp("v00Intensity", motLoadingEndTime, (int)Parameters["v0IntensityRampDuration"], (double)Parameters["v0IntensityEndValue"]);
p.AddAnalogValue("v00Intensity", motSwitchOffTime, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, (double)Parameters["v0FrequencyStartValue"]);
//v0 chirp
p.AddAnalogValue("v00Chirp", 0, 0.0);
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("v00Chirp");
// Add Rb Analog channels
p.AddChannel("rb3DCoolingFrequency");
p.AddChannel("rb3DCoolingAttenuation");
p.AddChannel("rbRepumpFrequency");
p.AddChannel("rbRepumpAttenuation");
p.AddChannel("rbAbsImagingFrequency");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// B Field
p.AddAnalogValue("MOTCoilsCurrent", 0, 0.5);
//p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTLoadTime"], -0.0); //switch off coils for molasses and optical pumping stage
//p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MolassesDuration"] + (int)Parameters["OpticalPumpingDuration"], (double)Parameters["magneticTraploadingCurrent"]); //turn on mag trap
//p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MolassesDuration"] + (int)Parameters["OpticalPumpingDuration"] + (int)Parameters["magneticTrapDuration"], -0.0); //switch off coils after holding atoms for some time in magnetic trap
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTLoadTime"] - 1000, 0.0); //Jump field to levitation gradient
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTLoadTime"], 1.5); //Jump field to levitation gradient
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["magneticTrapDuration"], 0.0);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
//p.AddAnalogValue("yShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MolassesDuration"] - 500, (double)Parameters["OpticalPumpingShimField"]);
//p.AddAnalogValue("xShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MolassesDuration"] - 500, (double)Parameters["OpticalPumpingShimFieldX"]);
//p.AddAnalogValue("yShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MOTCoilsCurrentRampDuration"] + (int)Parameters["MolassesDuration"] + 1000, 0.0);
//p.AddAnalogValue("xShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MOTCoilsCurrentRampDuration"] + (int)Parameters["MolassesDuration"] + 1000, 0.0);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 5.2);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, (double)Parameters["v0FrequencyStartValue"]);
//v0 chirp
p.AddAnalogValue("v00Chirp", 0, 0.0);
//Rb Laser detunings
p.AddAnalogValue("rb3DCoolingFrequency", 0, (double)Parameters["MOTCoolingLoadingFrequency"]);
p.AddAnalogValue("rbRepumpFrequency", 0, (double)Parameters["MOTRepumpLoadingFrequency"]);
p.AddAnalogValue("rbAbsImagingFrequency", 0, (double)Parameters["ImagingFrequency"]);
p.AddAnalogValue("rb3DCoolingAttenuation", 0, 0.0);
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
int rbMOTLoadTime = (int)Parameters["MOTLoadTime"];
int rbFirstFieldJump = rbMOTLoadTime + (int)Parameters["RbMOTHoldTime"];
int rbCMOTStartTime = rbFirstFieldJump + (int)Parameters["RbFirstCMOTHoldTime"];
int rbMOTswitchOffTime = rbCMOTStartTime + (int)Parameters["CMOTRampDuration"] + (int)Parameters["RbCMOTHoldTime"];
int rbMolassesStartTime = rbMOTswitchOffTime + (int)Parameters["RbMolassesDelay"];
int rbMolassesEndTime = rbMolassesStartTime + (int)Parameters["RbMolassesDuration"];
int rbMagnteticTrapStartTime = rbMolassesEndTime + (int)Parameters["OpticalPumpingDuration"];
int rbMagnteticTrapEndTime = rbMagnteticTrapStartTime + (int)Parameters["MagneticTrapDuration"];
int cameraTrigger1 = rbMagnteticTrapEndTime + (int)Parameters["WaitBeforeImage"] + (int)Parameters["FreeExpansionTime"];
int cameraTrigger2 = cameraTrigger1 + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //probe image
int cameraTrigger3 = cameraTrigger2 + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //bg
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("v00Chirp");
// Add Rb Analog channels
p.AddChannel("rb3DCoolingFrequency");
p.AddChannel("rb3DCoolingAttenuation");
p.AddChannel("rbRepumpFrequency");
p.AddChannel("rbRepumpAttenuation");
p.AddChannel("rbAbsImagingFrequency");
p.AddChannel("rbOffsetLock");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// B Field
p.AddAnalogValue("MOTCoilsCurrent", 0, (double)Parameters["MOTCoilsCurrentValue"]); //switch on MOT coils to load Rb MOT
p.AddAnalogValue("MOTCoilsCurrent", rbFirstFieldJump, (double)Parameters["CaFMOTLoadGradient"]);
p.AddLinearRamp("MOTCoilsCurrent", rbCMOTStartTime, (int)Parameters["CMOTRampDuration"], (double)Parameters["CMOTEndValue"]);
p.AddAnalogValue("MOTCoilsCurrent", rbMOTswitchOffTime, 0.0); //switch off coils after MOT is loaded
p.AddAnalogValue("MOTCoilsCurrent", rbMagnteticTrapStartTime, (double)Parameters["MagTrapGradient"]);
p.AddAnalogValue("MOTCoilsCurrent", rbMagnteticTrapEndTime, 0.0);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
//p.AddAnalogValue("yShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MolassesDuration"] - 200, (double)Parameters["OpticalPumpingShimField"]);
//p.AddAnalogValue("xShimCoilCurrent", (int)Parameters["MOTLoadTime"]+ (int)Parameters["MolassesDuration"] - 500, (double)Parameters["OpticalPumpingShimFieldX"]);
//p.AddAnalogValue("yShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MOTCoilsCurrentRampDuration"] + (int)Parameters["MolassesDuration"] + 1000, 0.0);
//p.AddAnalogValue("xShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MOTCoilsCurrentRampDuration"] + (int)Parameters["MolassesDuration"] + 1000, 0.0);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 5.2);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, (double)Parameters["v0FrequencyStartValue"]);
//v0 chirp
p.AddAnalogValue("v00Chirp", 0, 0.0);
//Rb Laser detunings for loading the MOT
p.AddAnalogValue("rb3DCoolingFrequency", 0, (double)Parameters["MOTCoolingLoadingFrequency"]);
p.AddAnalogValue("rbRepumpFrequency", 0, (double)Parameters["MOTRepumpLoadingFrequency"]);
p.AddAnalogValue("rbAbsImagingFrequency", 0, (double)Parameters["ImagingFrequency"]);
//Rb laser detunings for CMOT steps:
p.AddAnalogValue("rb3DCoolingFrequency", rbCMOTStartTime, (double)Parameters["RbCoolingFrequencyCMOT"]);
p.AddAnalogValue("rbRepumpFrequency", rbCMOTStartTime, (double)Parameters["RbRepumpFrequencyCMOT"]);
//Rb molasses:
p.AddLinearRamp("rb3DCoolingFrequency", rbMolassesStartTime, (int)Parameters["RbMolassesDuration"], (double)Parameters["RbMolassesEndDetuning"]);
p.AddAnalogValue("rbOffsetLock", 0, 1.1);
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOT(p, Parameters);
int rbMOTLoadTime = (int)Parameters["MOTLoadTime"];
int rbFirstFieldJump = rbMOTLoadTime + (int)Parameters["RbMOTHoldTime"];
int rbCMOTStartTime = rbFirstFieldJump + (int)Parameters["RbFirstCMOTHoldTime"];
int rbMOTswitchOffTime = rbCMOTStartTime + (int)Parameters["CMOTRampDuration"] + (int)Parameters["RbCMOTHoldTime"];
int rbMolassesStartTime = rbMOTswitchOffTime + (int)Parameters["RbMolassesDelay"];
int rbMolassesEndTime = rbMolassesStartTime + (int)Parameters["RbMolassesDuration"];
//int rbMagnteticTrapStartTime = rbMolassesEndTime + (int)Parameters["OpticalPumpingDuration"];
int rbMagnteticTrapStartTime = rbMolassesEndTime;
int rbMagnteticTrapTransferToExternalStartTime = rbMagnteticTrapStartTime + 10000;
int rbMagnteticTrapTransferToExternalEndTime = rbMagnteticTrapTransferToExternalStartTime + (int)Parameters["TransferRampDurationExternalCoils"];
int startMotionTime = rbMagnteticTrapTransferToExternalEndTime + (int)Parameters["MotionDelay"];
int rbMagnteticTrapEndTime = startMotionTime + (int)Parameters["MagneticTrapDuration"];
//int speedbumpon = startMotionTime + (int)Parameters["SpeedBumpCoilsOn"];
// int cameraTrigger1 = rbMagnteticTrapEndTime + (int)Parameters["WaitBeforeImage"] + (int)Parameters["FreeExpansionTime"]; //image after transfer to external coils
//int cameraTrigger0 = rbMagnteticTrapStartTime + (int)Parameters["DelayFromTransferStart"];//image before transfer to external coils
//int cameraTrigger2 = cameraTrigger1 + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //probe image, //image after transfer to external coils
//int cameraTrigger1 = rbMagnteticTrapStartTime + (int)Parameters["DelayFromTransferStart"];
int rampUpInternalTweezerMagTrap = rbMagnteticTrapEndTime + (int)Parameters["RampUpDelayIntMagTrapTweezer"];
int InternalTweezerMagTrapEndTime = rampUpInternalTweezerMagTrap + (int)Parameters["RampUpDurationIntMagTrapTweezer"] + (int)Parameters["DurationIntMagTrapTweezer"];
int DipoleTrapSwitchOnTime = InternalTweezerMagTrapEndTime - (int)Parameters["DipoleTrapMagTrapOverlapDuration"];
int DipoleTrapSwitchOffTime = DipoleTrapSwitchOnTime + (int)Parameters["DurationDipoleTrap"];
int cameraTrigger1 = rbMagnteticTrapTransferToExternalEndTime + (int)Parameters["DelayFromTransferStart"];
//int cameraTrigger1 = rbMolassesStartTime + (int)Parameters["DelayFromTransferStart"];
//int cameraTrigger1 = rbMolassesEndTime + (int)Parameters["DelayFromTransferStart"];
//int cameraTrigger2 = rbMagnteticTrapEndTime + (int)Parameters["WaitBeforeImage"] + (int)Parameters["FreeExpansionTime"] + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //probe image, //image before transfer to external coils
//int cameraTrigger3 = cameraTrigger2 + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //bg
int cameraTrigger2 = cameraTrigger1 + (int)Parameters["WaitBeforeImage"] + (int)Parameters["FreeExpansionTime"] + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //probe image, //image before transfer to external coils
int cameraTrigger3 = cameraTrigger2 + (int)Parameters["CameraTriggerDelayAfterFirstImage"]; //bg
int absprobeswitchoff = cameraTrigger2 + (int)Parameters["Frame0TriggerDuration"] + 20; //bg
int coolingimgswitchoff = cameraTrigger1 + 20; //bg
int swtichAllOn = cameraTrigger3 + 5000;
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("zShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("v00Chirp");
// Add Rb Analog channels
p.AddChannel("rb3DCoolingFrequency");
p.AddChannel("rb3DCoolingAttenuation");
p.AddChannel("rbRepumpFrequency");
p.AddChannel("rbRepumpAttenuation");
p.AddChannel("rbAbsImagingFrequency");
p.AddChannel("rbOffsetLock");
p.AddChannel("transferCoils");
p.AddChannel("transferCoilsShunt1");
p.AddChannel("transferCoilsShunt2");
p.AddChannel("speedbumpCoils");
p.AddChannel("TweezerMOTCoils");
p.AddChannel("DipoleTrapLaserControl");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// B Field
p.AddAnalogValue("speedbumpCoils", 0, -0.02);
p.AddAnalogValue("DipoleTrapLaserControl", 0, 0.0);
p.AddAnalogValue("TweezerMOTCoils", 0, -0.02);
//p.AddAnalogValue("transferCoilsShunt1", 0, -0.02);
//p.AddAnalogValue("transferCoilsShunt2", 0, -0.02);
p.AddAnalogValue("transferCoils", 0, 0.0); //start with external coils off
p.AddAnalogValue("MOTCoilsCurrent", 0, (double)Parameters["MOTCoilsCurrentValue"]); //switch on MOT coils to load Rb MOT
p.AddAnalogValue("MOTCoilsCurrent", rbFirstFieldJump, (double)Parameters["CaFMOTLoadGradient"]);
p.AddLinearRamp("MOTCoilsCurrent", rbCMOTStartTime, (int)Parameters["CMOTRampDuration"], (double)Parameters["CMOTEndValue"]);
p.AddAnalogValue("MOTCoilsCurrent", rbMOTswitchOffTime, -0.05); //switch off coils after MOT is loaded
p.AddAnalogValue("MOTCoilsCurrent", rbMagnteticTrapStartTime, (double)Parameters["MagTrapInternalGradient"]);
p.AddLinearRamp("MOTCoilsCurrent", rbMagnteticTrapTransferToExternalStartTime, (int)Parameters["TransferRampDurationInternalCoils"], 0.0);
p.AddLinearRamp("transferCoils", rbMagnteticTrapTransferToExternalStartTime, (int)Parameters["TransferRampDurationExternalCoils"], (double)Parameters["ExternalMagTrapRampEndValue"]);
p.AddLinearRamp("transferCoils", rbMagnteticTrapEndTime, (int)Parameters["RampDownTimeTransportTrap"], 0.0);
p.AddLinearRamp("TweezerMOTCoils", rampUpInternalTweezerMagTrap, (int)Parameters["RampUpDurationIntMagTrapTweezer"], (double)Parameters["CurrentEndValueIntMagTrapTweezer"]);
//p.AddLinearRamp("MOTCoilsCurrent", rampUpInternalTweezerMagTrap , (int)Parameters["RampUpDurationIntMagTrapTweezer"], (double)Parameters["CurrentEndValueIntMagTrapTweezer"]);
p.AddAnalogValue("TweezerMOTCoils", InternalTweezerMagTrapEndTime, -0.02);
p.AddAnalogValue("speedbumpCoils", DipoleTrapSwitchOnTime, 1.5);
p.AddAnalogValue("DipoleTrapLaserControl", DipoleTrapSwitchOnTime, 5.0);
p.AddAnalogValue("speedbumpCoils", DipoleTrapSwitchOffTime, -0.02);
p.AddAnalogValue("DipoleTrapLaserControl", DipoleTrapSwitchOffTime, 0.0);
//p.AddAnalogValue("MOTCoilsCurrent", InternalTweezerMagTrapEndTime, -0.02);
//p.AddAnalogValue("transferCoilsShunt1", rbMagnteticTrapTransferToExternalEndTime + 1000, 0.1);
//p.AddAnalogValue("transferCoilsShunt2", rbMagnteticTrapTransferToExternalEndTime + 1000, 0.1);
/*
*
* // [131,135,140, 145,150,156, 162, 166, 170, 175, 180,186, 190, 195, 200, 205, 209, 216, 220]
* // [ 57500., 58000., 58750., 59500., 60250., 61125., 62000., 62625.,63125., 63875. 64625., 65500., 66125., 66875., 67500., 68250., 68875., 69875., 70500.]
*
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 58000, -0.08);
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 59000, -0.15);
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 60000, -0.3);
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 61000, -0.25);
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 62000, -0.2);
*
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 64000, 0.4);
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 65000, 0);
* //p.AddAnalogValue("speedbumpCoils", startMotionTime + 65000, 0.1);
* //p.AddAnalogValue("speedbumpCoils", startMotionTime + 66000, 0);
* //p.AddAnalogValue("speedbumpCoils", startMotionTime + 68000, -0.3);
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 68500, -0.45);
*
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 70000, -0.55);
*
* p.AddAnalogValue("speedbumpCoils", startMotionTime + 72000, 0);
*
*
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 58000, 0.06);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 60000, 0.18);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 61000, 0.2);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 61500, 0.25);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 62000, 0.45);
*
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 64000, 0.55);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 65000, 0.4);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 66000, 0.25);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 68500, 0.2);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 70500, 0.25);
*
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 73000, 0.0);
* p.AddAnalogValue("transferCoilsShunt2", startMotionTime + 73000, 0.05);
* p.AddAnalogValue("transferCoilsShunt2", startMotionTime + 74500, 0.0);
*
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 76000, 0.2);
* p.AddAnalogValue("transferCoilsShunt1", startMotionTime + 78000, 0.4);
*
*/
/* **************** Accel 2200 TP 175 ************************
* double Vfact = -0.1;
*
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 59375, 1000, -0.012 + (Vfact * 0));//-0.149
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 60375, 1375, -0.012 + (Vfact * 0));//-0.179
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 61750, 1374, -0.012 + (Vfact * 0.8));//0.353
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 63125, 1500, -0.012 + (Vfact * 1.449));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 64625, 2000, -0.012 + (Vfact * 1.795));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 66625, 2500, -0.012 + (Vfact * 1.42));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 69125, 2000, -0.012 + (Vfact * 1.038));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 71125, 2874, -0.012 + (Vfact * -0.11));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 74000, 16500, -0.012 + (Vfact * 0.257));
*
* double Vfact = 1;
*
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 59375, 1000, -0.012 + (Vfact * 0.001));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 60375, 1375, -0.012 + (Vfact * 0.003));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 61750, 1374, -0.012 + (Vfact * 0.02));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 63125, 1500, -0.012 + (Vfact * 0.08));//0.006
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 64625, 2000, -0.012 + (Vfact * 0.186));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 66625, 2500, -0.012 + (Vfact * 0.441));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 69125, 2000, -0.012 + (Vfact * 0.37));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 71125, 2874, -0.012 + (Vfact * 0.448));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 74000, 16500, -0.012 + (Vfact * 0.467));
*
*/
/* ***************** Accel 2200 TP 380 ****************************
* double Vfact = -0.1;
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 57500, 499, -0.012 + (Vfact * 0));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 57999, 750, -0.012 + (Vfact * 0));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 58750, 749, -0.012 + (Vfact * 0.8));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 59500, 750, -0.012 + (Vfact * 1.449));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 60250, 874, -0.012 + (Vfact * 1.795));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 61124, 875, -0.012 + (Vfact * 1.42));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 62000, 624, -0.012 + (Vfact * 1.038));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 62625, 500, -0.012 + (Vfact * -0.11));
* p.AddLinearRamp("speedbumpCoils", startMotionTime + 63125, 750, -0.012 + (Vfact * 0.257));
*
* Vfact = 1;
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 57500, 499, -0.012 + (Vfact * 0.001));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 57999, 750, -0.012 + (Vfact * 0.003));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 58750, 749, -0.012 + (Vfact * 0.02));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 59500, 750, -0.012 + (Vfact * 0.08));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 60250, 874, -0.012 + (Vfact * 0.186));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 61124, 875, -0.012 + (Vfact * 0.441));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 62000, 624, -0.012 + (Vfact * 0.37));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 62625, 500, -0.012 + (Vfact * 0.448));
* p.AddLinearRamp("transferCoilsShunt1", startMotionTime + 63125, 750, -0.012 + (Vfact * 0.467));
*
*/
// Shim Fields
//p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
//p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
//p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
//p.AddAnalogValue("yShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MolassesDuration"] - 200, (double)Parameters["OpticalPumpingShimField"]);
//p.AddAnalogValue("xShimCoilCurrent", (int)Parameters["MOTLoadTime"]+ (int)Parameters["MolassesDuration"] - 500, (double)Parameters["OpticalPumpingShimFieldX"]);
//p.AddAnalogValue("yShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MOTCoilsCurrentRampDuration"] + (int)Parameters["MolassesDuration"] + 1000, 0.0);
//p.AddAnalogValue("xShimCoilCurrent", (int)Parameters["MOTLoadTime"] + (int)Parameters["MOTCoilsCurrentRampDuration"] + (int)Parameters["MolassesDuration"] + 1000, 0.0);
// F=0
p.AddAnalogValue("v00EOMAmp", 0, 5.2);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, (double)Parameters["v0FrequencyStartValue"]);
//v0 chirp
p.AddAnalogValue("v00Chirp", 0, 0.0);
//Rb Laser detunings for loading the MOT
p.AddAnalogValue("rb3DCoolingFrequency", 0, (double)Parameters["MOTCoolingLoadingFrequency"]);
p.AddAnalogValue("rbRepumpFrequency", 0, (double)Parameters["MOTRepumpLoadingFrequency"]);
p.AddAnalogValue("rbAbsImagingFrequency", 0, (double)Parameters["ImagingFrequency"]);
//Rb laser detunings for CMOT steps:
p.AddAnalogValue("rb3DCoolingFrequency", rbCMOTStartTime, (double)Parameters["RbCoolingFrequencyCMOT"]);
p.AddAnalogValue("rbRepumpFrequency", rbCMOTStartTime, (double)Parameters["RbRepumpFrequencyCMOT"]);
//Rb molasses:
p.AddLinearRamp("rb3DCoolingFrequency", rbMolassesStartTime, (int)Parameters["RbMolassesDuration"], (double)Parameters["RbMolassesEndDetuning"]);
p.AddAnalogValue("rbOffsetLock", 0, 1.1);
p.AddAnalogValue("yShimCoilCurrent", 0, 0.0);
p.AddAnalogValue("yShimCoilCurrent", startMotionTime, 5.0);//This is now used to trigger the translation stage of the transport coils
p.AddAnalogValue("yShimCoilCurrent", startMotionTime + 100, 0.0);
return(p);
}
public override AnalogPatternBuilder GetAnalogPattern()
{
AnalogPatternBuilder p = new AnalogPatternBuilder((int)Parameters["PatternLength"]);
MOTMasterScriptSnippet lm = new LoadMoleculeMOTNoSlowingEdge(p, Parameters);
int patternStartBeforeQ = (int)Parameters["TCLBlockStart"];
int molassesStartTime = (int)Parameters["MOTSwitchOffTime"] + (int)Parameters["MolassesDelay"];
int molassesRampTime = molassesStartTime + (int)Parameters["MolassesHoldTime"];
int v0F0PumpStartTime = molassesRampTime + (int)Parameters["MolassesRampDuration"];
int microwavePulseTime = v0F0PumpStartTime + (int)Parameters["v0F0PumpDuration"];
int blowAwayTime = microwavePulseTime + (int)Parameters["MicrowavePulseDuration"];
int secondMicrowavePulseTime = blowAwayTime + (int)Parameters["PokeDuration"];
int firstRamseyPulseTime = secondMicrowavePulseTime + (int)Parameters["SecondMicrowavePulseDuration"];
int ramseyPiPulseTime = firstRamseyPulseTime + (int)Parameters["FirstRamseyWaitTime"] + (int)Parameters["RamseyPulseDuration"];
int secondRamseyPulseTime = ramseyPiPulseTime + (int)Parameters["SecondRamseyWaitTime"] + (int)Parameters["RamseyPiPulseDuration"];
int magTrapStartTime = secondRamseyPulseTime + (int)Parameters["RamseyPulseDuration"];
int motRecaptureTime = magTrapStartTime + (int)Parameters["MagTrapDuration"];
int imageTime = motRecaptureTime + (int)Parameters["MOTWaitBeforeImage"];
// Add Analog Channels
p.AddChannel("v00Intensity");
p.AddChannel("v00Frequency");
p.AddChannel("xShimCoilCurrent");
p.AddChannel("yShimCoilCurrent");
p.AddChannel("v00EOMAmp");
p.AddChannel("zShimCoilCurrent");
// Slowing field
p.AddAnalogValue("slowingCoilsCurrent", 0, (double)Parameters["slowingCoilsValue"]);
p.AddAnalogValue("slowingCoilsCurrent", (int)Parameters["slowingCoilsOffTime"], 0.0);
// B Field
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTCoilsSwitchOn"], (double)Parameters["MOTCoilsCurrentRampStartValue"]);
p.AddLinearRamp("MOTCoilsCurrent", (int)Parameters["MOTCoilsCurrentRampStartTime"], (int)Parameters["MOTCoilsCurrentRampDuration"], (double)Parameters["MOTCoilsCurrentRampEndValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["MOTSwitchOffTime"], (double)Parameters["MOTCoilsCurrentMolassesValue"]);
p.AddAnalogValue("MOTCoilsCurrent", magTrapStartTime, (double)Parameters["MOTCoilsCurrentMagTrapValue"]);
p.AddAnalogValue("MOTCoilsCurrent", motRecaptureTime, (double)Parameters["MOTCoilsCurrentRampStartValue"]);
p.AddAnalogValue("MOTCoilsCurrent", (int)Parameters["CoilsSwitchOffTime"], -0.01);
// Shim Fields
p.AddAnalogValue("xShimCoilCurrent", 0, (double)Parameters["xShimLoadCurrent"]);
p.AddAnalogValue("yShimCoilCurrent", 0, (double)Parameters["yShimLoadCurrent"]);
p.AddAnalogValue("zShimCoilCurrent", 0, (double)Parameters["zShimLoadCurrent"]);
// v0 Intensity Ramp
p.AddAnalogValue("v00Intensity", 0, (double)Parameters["v0IntensityRampStartValue"]);
p.AddLinearRamp("v00Intensity", (int)Parameters["v0IntensityRampStartTime"], (int)Parameters["v0IntensityRampDuration"], (double)Parameters["v0IntensityRampEndValue"]);
p.AddAnalogValue("v00Intensity", molassesStartTime, (double)Parameters["v0IntensityMolassesValue"]);
p.AddAnalogValue("v00Intensity", molassesRampTime + 50, 7.4);
p.AddAnalogValue("v00Intensity", molassesRampTime + 100, 7.83);
p.AddAnalogValue("v00Intensity", molassesRampTime + 150, 8.09);
p.AddAnalogValue("v00Intensity", v0F0PumpStartTime, (double)Parameters["v0IntensityF0PumpValue"]);
p.AddAnalogValue("v00Intensity", motRecaptureTime, (double)Parameters["v0IntensityImageValue"]);
// v0 EOM
p.AddAnalogValue("v00EOMAmp", 0, (double)Parameters["v0EOMMOTValue"]);
p.AddAnalogValue("v00EOMAmp", v0F0PumpStartTime, (double)Parameters["v0EOMPumpValue"]);
p.AddAnalogValue("v00EOMAmp", motRecaptureTime, (double)Parameters["v0EOMMOTValue"]);
// v0 Frequency Ramp
p.AddAnalogValue("v00Frequency", 0, ((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyMOTValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]);
p.AddAnalogValue(
"v00Frequency",
molassesStartTime,
((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyMolassesValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]
);
p.AddAnalogValue(
"v00Frequency",
v0F0PumpStartTime,
((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyF0PumpValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]
);
p.AddAnalogValue(
"v00Frequency",
motRecaptureTime,
((double)Parameters["lockAomFrequency"] - (double)Parameters["v0FrequencyMOTValue"] / 2 - (double)Parameters["calibOffset"]) / (double)Parameters["calibGradient"]
);
return(p);
}
