mpmath_input_arguments.py 1.3 KB

123456789101112131415161718192021222324252627282930
  1. import mpmath as mp
  2. import numpy as np
  3. complex_arguments = [
  4. # // x, [Re(m), Im(m)], Qext, Qsca, test_name
  5. # [10000, [1.33,1e-5], 2.004089, 1.723857, 'f'],
  6. # [10000, [1.5, 1], 2.004368, 1.236574, 'j'],
  7. # [10000, [10, 10], 2.005914, 1.795393, 'm'],
  8. # [80, [1.05, 1], 0, 0, 'Yang'],
  9. # [0.099, [0.75,0], 7.417859e-06, 7.417859e-06, 'a'],
  10. # [0.101, [0.75,0], 8.033538e-06, 8.033538e-06, 'b'],
  11. # [10, [0.75,0], 2.232265, 2.232265, 'c'],
  12. # [1000, [0.75,0], 1.997908, 1.997908, 'd'],
  13. # [100, [1.33,1e-5], 2.101321, 2.096594, 'e'],
  14. # [0.055, [1.5, 1], 0.101491, 1.131687e-05, 'g'],
  15. # [0.056, [1.5, 1], 0.1033467, 1.216311e-05, 'h'],
  16. # [100, [1.5, 1], 2.097502, 1.283697, 'i'],
  17. # [1, [10, 10], 2.532993, 2.049405, 'k'],
  18. # [100, [10, 10,], 2.071124, 1.836785, 'l'],
  19. [11.8104986977059896, [1.33,0], 0,0, 'nanojet 1mkm']
  20. # [1, [mp.pi, 1], 0, 0, 'pi'],
  21. # [1, [mp.pi, -1], 0, 0, 'pi'],
  22. # [1, [mp.pi, mp.pi], 0, 0, 'pi'],
  23. # [1, [2*mp.pi, -1], 0, 0, 'pi'],
  24. # [1, [2*mp.pi, mp.pi], 0, 0, 'pi'],
  25. # [1, [2*mp.pi, 1], 0, 0, 'pi'],
  26. # [1, [mp.pi, 0], 0, 0, 'pi'],
  27. # [1, [np.pi, 0], 0, 0, 'pi'],
  28. # [2.03575204,[1.4558642,0.20503704],1.952484, 0.9391477, 'water r=1mkm scattnlay 2020/04/22']
  29. ]