Uploaded working example

This is an expample including parameters for the BoDy 2DMOT and parameters of BenLev, which trap Dy161.
2025-05-06 14:52:13 +02:00 · 2025-05-06 14:52:13 +02:00 · fa0fe1a7ff
commit fa0fe1a7ff
parent 4cd54a299c
1 changed files with 85 additions and 0 deletions
--- a/example.py
+++ b/example.py
@ -0,0 +1,85 @@
+import numpy as np
+import scipy.constants as cts
+from datetime import date
+
+import pylcp
+import common
+import custom_rateeq
+import Dy_atom
+import PlotStuff
+import pprint
+import matplotlib.pyplot as plt
+
+"""
+This is an example how you could use the packege.
+You can define a dictionary as one of these below and pass it on to the calc_force_field_and_trajectories_angled_2DMOT function
+in common, if you want to calculate the force field and trajectories for a 2D MOT angled at 45° like in BoDy.
+The results will be saved and plotted after the simulation is finished.
+Change Isotope_name to use a different Isotope.
+"""
+
+Isotope_name = "Dy161"
+
+params_DyLab = {
+    "det" : -1.8,
+    "s" : 1.76,
+    "field_mag_Gauss_cm" : 34,
+    "field_type" : "2DMOT",
+    "waist_m" : 0.016,
+    "aperture_m" : 0.0175,
+    "trap_length_m" : 0.06,
+    "max_velocity" : 150,
+    "initial_velocities_m" : np.linspace(5,105,11),
+    "initial_position_m" : -0.03,
+    "boundary_m" : -0.03*1.1,
+    "MOTvelocity_ms" : 1,
+    "MOTradius_m": 0.001
+}
+
+params_BenLev = {
+    "det" : -1.2,
+    "s" : 0.185,
+    "field_mag_Gauss_cm" : 10,
+    "field_type" : "2DMOT",
+    "waist_m" : 0.011,
+    "aperture_m" : 0.01925,
+    "trap_length_m" : 0.04,
+    "max_velocity" : 150,
+    "initial_velocities_m" : np.linspace(5,105,11),
+    "initial_position_m" : -0.03,
+    "boundary_m" : -0.03*1.1,
+    "MOTvelocity_ms" : 0.1,
+    "MOTradius_m": 0.0002
+}
+
+params_SingleBeamTest = {
+    "det" : 0.,
+    "s" : 0.,
+    "polarisation" : 1,
+    "field_mag_Gauss_cm" : 20,
+    "field_type" : "Gradient",
+    "waist_m" : 0.011,
+    "aperture_m" : 0.01925,
+    "trap_length_m" : 0.04,
+    "max_velocity" : 150,
+    "initial_velocities_m" : np.linspace(5,105,11),
+    "initial_position_m" : -0.03,
+    "boundary_m" : -0.03*1.1
+}
+
+#chose one of the above parameter sets:
+params = params_DyLab
+
+#define a memorable name for your results
+name = "intoBoDy2DMOT"+str(params["det"])+"detuning"+str(params["s"])+"s"+str(params["field_mag_Gauss_cm"])+"Gauss_per_cm"
+
+#do the calculation
+common.calc_force_field_and_trajectories_angled_2DMOT(Isotope_name, params, resolution_x=200, resolution_v=200, t_max = 15e-3, basename=name)
+#common.calc_force_field_and_trajectories_Single_Beam(Isotope_name, params_SingleBeamTest, 200, 200, 30e-3, name)
+
+#And plot the results:
+#PlotStuff.plot_force_field_and_trajectories(Isotope_name, name, date_str= "2025-04-28")
+PlotStuff.plot_state_densities_and_force_field_with_trajectories(Isotope_name, name)#, date_str = "2025-04-28")
+#PlotStuff.plot_force_field(Isotope_name, name, date_str= "2025-04-28")
+
+