schoener/DyLab_3D_MOT
1
0
Fork 0
Code Issues Pull Requests repo.project_board Releases Wiki Activity

new calculations

Browse Source
This commit is contained in:
schoener 2021-12-03 12:09:23 +01:00
parent 620e61e025
commit 7dc0bf1c78
8 changed files with 128 additions and 76 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

7
Coil_geometry/01_FINAL_coil_max_current.py
View File

@ -24,6 +24,9 @@ HH_Coil = BC.BCoil(HH = 1, distance = 54, radius = 48, layers = 8, windings = 8,
wire_width = Wire_1[0], insulation_thickness=(Wire_1[1] - Wire_1[0]) / 2, is_round = True, wire_width = Wire_1[0], insulation_thickness=(Wire_1[1] - Wire_1[0]) / 2, is_round = True,
winding_scheme= 2) winding_scheme= 2)
R = HH_Coil.resistance(150) R = HH_Coil.resistance(25)
print(2400/R) I = 2
print(f"U ={I*R*2}")
print(f"resistance {R}")

25
Coil_geometry/Export_field/01_Export_quarter_radial.py
View File

@ -8,6 +8,7 @@ import matplotlib.pyplot as plt
from src import coil_class as BC from src import coil_class as BC
from src import physical_constants as cs from src import physical_constants as cs
import logging as log import logging as log
import time
log.basicConfig(level=log.DEBUG, format='%(message)s') log.basicConfig(level=log.DEBUG, format='%(message)s')
@ -18,7 +19,7 @@ def main():
x, z = BC.BCoil.make_axis(50, 5) x, z = BC.BCoil.make_axis(50, 5)
I_current = 5 I_current = 0.3804
# print(BC.BCoil._BCoil__B_z_loop(I_current = I, r_loop = 1, z_loop = 1, r_pos = 0, z_pos = 0.1) # print(BC.BCoil._BCoil__B_z_loop(I_current = I, r_loop = 1, z_loop = 1, r_pos = 0, z_pos = 0.1)
@ -27,7 +28,7 @@ def main():
# - BC.BCoil._BCoil__B_z_loop(I_current=I, r_loop=1, z_loop=-1, r_pos=0, z_pos=-0.1)) # - BC.BCoil._BCoil__B_z_loop(I_current=I, r_loop=1, z_loop=-1, r_pos=0, z_pos=-0.1))
step = 5 step = 0.05
xlim_mm = 30 xlim_mm = 30
xlim = int(xlim_mm/step) + 1 xlim = int(xlim_mm/step) + 1
ylim_mm = 30 ylim_mm = 30
@ -35,23 +36,25 @@ def main():
zlim_mm = 20 zlim_mm = 20
zlim = int(zlim_mm/step) + 1 zlim = int(zlim_mm/step) + 1
B_quarter = np.zeros((xlim, ylim, zlim, 2)) B_quarter = np.zeros((xlim, ylim, zlim, 2),dtype= np.float32)
print(np.shape(B_quarter))
#print(B_quarter) #print(B_quarter)
x = np.linspace(0,xlim_mm,xlim) * 1e-3 x = np.linspace(0,xlim_mm,xlim) * 1e-3
y = np.linspace(0,ylim_mm,ylim) * 1e-3 y = np.linspace(0,ylim_mm,ylim) * 1e-3
z = np.linspace(0,zlim_mm,zlim) * 1e-3 z = np.linspace(0,zlim_mm,zlim) * 1e-3
calc_raster = AHH_Coil.full_raster(1) calc_raster = AHH_Coil.full_raster(1)
rastering_value = len(calc_raster[0])
I_current /= rastering_value
start = time.time()
for wire in range(0,AHH_Coil.get_N()): for wire in range(0,AHH_Coil.get_N()):
for ii in range(0,rastering_value): print(f"time = {(time.time()-start)/60} min")
print(f"wire = {wire} of {AHH_Coil.get_N()}")
# extract position information out of raster # extract position information out of raster
z_pos = calc_raster[wire, ii, 0] z_pos = calc_raster[wire, 0, 0]
r_pos = calc_raster[wire, ii, 1] r_pos = calc_raster[wire, 0, 1]
for xx in range(0,xlim): for xx in range(0, xlim):
for yy in range(0,ylim): for yy in range(0, ylim):
r = np.sqrt(x[xx]**2 + y[yy]**2) r = np.sqrt(x[xx]**2 + y[yy]**2)
@ -65,7 +68,7 @@ def main():
B_quarter[xx, yy, :, 0] += BC.BCoil._BCoil__B_r_loop(I_current, r_pos, z_pos, r, z) \ B_quarter[xx, yy, :, 0] += BC.BCoil._BCoil__B_r_loop(I_current, r_pos, z_pos, r, z) \
+ BC.BCoil._BCoil__B_r_loop(AHH_Coil.HH * I_current, r_pos, -z_pos, r, z) + BC.BCoil._BCoil__B_r_loop(AHH_Coil.HH * I_current, r_pos, -z_pos, r, z)
np.save('output/B_quarter_step_5.npy', B_quarter) np.save('output/final/B_quarter_1Gcm.npy', B_quarter)
#B_tot = np.zeros(((2 * xlim) - 1, (2 * ylim) - 1, (2 * zlim)-1, 2)) #B_tot = np.zeros(((2 * xlim) - 1, (2 * ylim) - 1, (2 * zlim)-1, 2))

9
Coil_geometry/Export_field/02_plotting_data.py
View File

@ -11,7 +11,7 @@ def main():
wire_height=0.5, wire_width=0.5, insulation_thickness=0.068 / 2, wire_height=0.5, wire_width=0.5, insulation_thickness=0.068 / 2,
is_round=True, winding_scheme=2) is_round=True, winding_scheme=2)
step = 5 step = 0.03
xlim_mm = 30 xlim_mm = 30
xlim = int(xlim_mm/step) + 1 xlim = int(xlim_mm/step) + 1
ylim_mm = 30 ylim_mm = 30
@ -29,9 +29,10 @@ def main():
z = np.linspace(-zlim_mm, zlim_mm, 2 *zlim - 1) * 1e-3 z = np.linspace(-zlim_mm, zlim_mm, 2 *zlim - 1) * 1e-3
# b_plot = np.load('output/B_quarter.npy')
b_raw = np.load('output/b_cart_1_step_5.npy') b_plot = np.load('output/B_quarter.npy')
b_raw = np.load('output/b_full_test.npy') #b_raw = np.load('output/b_cart_1_step_5.npy')
#b_raw = np.load('output/b_full_test.npy')
b_plot = np.swapaxes(b_raw,0,1) # Meshgrid uses different order of axis (y,x,z) b_plot = np.swapaxes(b_raw,0,1) # Meshgrid uses different order of axis (y,x,z)
# x_m, z_m = np.meshgrid(x, z) # x_m, z_m = np.meshgrid(x, z)

30
Coil_geometry/Export_field/03_B_quarter_to_field.py
View File

@ -13,7 +13,7 @@ import logging as log
def main(): def main():
step = 5 step = 0.05
xlim_mm = 30 xlim_mm = 30
xlim = int(xlim_mm / step) + 1 xlim = int(xlim_mm / step) + 1
print(xlim) print(xlim)
@ -26,7 +26,7 @@ def main():
y = np.linspace(0, ylim_mm, ylim) * 1e-3 y = np.linspace(0, ylim_mm, ylim) * 1e-3
z = np.linspace(0, zlim_mm, zlim) * 1e-3 z = np.linspace(0, zlim_mm, zlim) * 1e-3
b_qu_polar = np.load('output/B_quarter_step_5.npy') b_qu_polar = np.load('output/final/B_quarter_1Gcm.npy')
@ -34,7 +34,7 @@ def main():
shape = np.shape(b_qu_polar) shape = np.shape(b_qu_polar)
print(shape) print(shape)
new_shape = (shape[0], shape[1], shape[2], shape[3] + 1) new_shape = (shape[0], shape[1], shape[2], shape[3] + 1)
b_cart_1 = np.zeros(new_shape) b_cart_1 = np.zeros(new_shape,dtype = np.float32)
# add z-component # add z-component
b_cart_1[:, :, :, 2] = b_qu_polar[:, :, :, 1] b_cart_1[:, :, :, 2] = b_qu_polar[:, :, :, 1]
@ -48,28 +48,10 @@ def main():
b_cart_1[xx, yy, :, 0] = b_qu_polar[xx, yy, :, 0] * np.cos(phi) b_cart_1[xx, yy, :, 0] = b_qu_polar[xx, yy, :, 0] * np.cos(phi)
b_cart_1[xx, yy, :, 1] = b_qu_polar[xx, yy, :, 0] * np.sin(phi) b_cart_1[xx, yy, :, 1] = b_qu_polar[xx, yy, :, 0] * np.sin(phi)
np.save('output/b_cart_1_step_5.npy', b_cart_1) np.save('output/final/b_cart_1Gcm.npy', b_cart_1)
del b_qu_polar
del b_cart_1
full_shape = (new_shape[0]*2 - 1, new_shape[1] * 2 - 1, new_shape[2] * 2 - 1, new_shape[3])
b_full = np.zeros(full_shape)
# fill first quarter
b_full[xlim-1:, ylim-1:, zlim-1:, :] = b_cart_1
print(xlim-1)
# mirror along y - z plane
b_full[:xlim-1, ylim-1:, zlim-1:, :] = b_cart_1[:0:-1, :, :, :]
b_full[:xlim-1, :, :, 0] *= - 1
# mirror along x - z plane
b_full[:, :ylim-1, zlim - 1:, :] = b_full[:, :ylim-1:-1 , zlim-1:, :]
b_full[:, :ylim-1, :, 1] *= -1
# mirror along x - y plane
b_full[:, :, :zlim-1, :] = b_full[:, :, :zlim-1 : -1, :]
b_full[:, :, :zlim-1, 2] *= -1
np.save('output/b_full_test.npy', b_full)
if __name__ == '__main__': if __name__ == '__main__':
main() main()

56
Coil_geometry/Export_field/04_B_cart_to_B_field.py Normal file
View File

@ -0,0 +1,56 @@
"""
Created on 11.11.21
@author: Joschka
"""
import numpy as np
import matplotlib.pyplot as plt
from src import coil_class as BC
from src import physical_constants as cs
import logging as log
def main():
step = 0.05
xlim_mm = 30
xlim = int(xlim_mm / step) + 1
print(xlim)
ylim_mm = 30
ylim = int(ylim_mm / step) + 1
zlim_mm = 20
zlim = int(zlim_mm / step) + 1
x = np.linspace(0, xlim_mm, xlim) * 1e-3
y = np.linspace(0, ylim_mm, ylim) * 1e-3
z = np.linspace(0, zlim_mm, zlim) * 1e-3
b_cart_1 = np.load('output/final/b_cart_1Gcm.npy')
new_shape = np.shape(b_cart_1)
full_shape = (new_shape[0]*2 - 1, new_shape[1] * 2 - 1, new_shape[2] * 2 - 1, new_shape[3])
b_full = np.zeros(full_shape, dtype= np.float32)
# fill first quarter
b_full[xlim-1:, ylim-1:, zlim-1:, :] = b_cart_1
print(xlim-1)
# mirror along y - z plane
b_full[:xlim-1, ylim-1:, zlim-1:, :] = b_cart_1[:0:-1, :, :, :]
b_full[:xlim-1, :, :, 0] *= - 1
# mirror along x - z plane
b_full[:, :ylim-1, zlim - 1:, :] = b_full[:, :ylim-1:-1 , zlim-1:, :]
b_full[:, :ylim-1, :, 1] *= -1
# mirror along x - y plane
b_full[:, :, :zlim-1, :] = b_full[:, :, :zlim-1 : -1, :]
b_full[:, :, :zlim-1, 2] *= -1
np.save('output/final/b_full.npy', b_full)
if __name__ == '__main__':
main()

22
Coil_geometry/Export_field/04_Write_to_txt.py
View File

@ -1,22 +0,0 @@
"""
Created on 15.11.21
@author: Joschka
"""
import numpy as np
def main():
b_full = np.load('output/b_full_test.npy')
bx_txt = open("output/Bx.txt", "w+")
xx = 0
yy = 0
str = np.array2string(b_full[xx, yy, :, 0])
bx_txt.write(str)
if __name__ == '__main__':
main()

30
Coil_geometry/Export_field/05_Write_to_txt.py Normal file
View File

@ -0,0 +1,30 @@
"""
Created on 15.11.21
@author: Joschka
"""
import numpy as np
from scipy.io import savemat
def main():
# b_full = np.load('output/b_full_test.npy')
#
# bx_txt = open("output/Bx.txt", "w+")
# xx = 0
# yy = 0
# str = np.array2string(b_full[xx, yy, :, 0])
# bx_txt.write(str)
b_full = np.load('output/final/b_full.npy')
# mdic = {"B": b_full}
# del b_full
# savemat("b_full_matlab.mat",b_full)
np.savetxt("b_x.csv", b_full[:,:,0,0])
if __name__ == '__main__':
main()

5
untitled0.py
View File

@ -9,9 +9,8 @@ import matplotlib.pyplot as plt
def main(): def main():
x = np.linspace(-10, 10, 21) print(2e8/4.9e-3)
print(x) #print(zlim*35921/(1024)**2)
print(x[:0:-1])