MOONs

[ ]:

from atmosphyre import dispersion
import numpy as np

[2]:

simulation=dispersion.sim()
simulation.load_observation(observation_start=3,observation_end=4,declination=-30)
simulation.load_wavelengths(wavelengths=[.6,.7,.8])
simulation.calculate_integration_shifts(guide_wavelength=.65,aperture_wavelength=.75)
simulation.load_aperture(aperture_major_axis=.6)
simulation.load_PSFs()
simulation.calculate_integration_transmissions()
simulation.integration_plots()
../_images/notebooks_MOONs_2_0.png
../_images/notebooks_MOONs_2_1.png 
[3]:

simulation=dispersion.sim()
simulation.run(observation_start=1,observation_end=2,declination=-30,wavelengths=np.linspace(.5,.8,300),aperture_major_axis=.5)

Optimising Guide/Aperture Wavelength
Optimal Metrics:
Min Transmission = 92%
Max Transmission = 100%
Throughput = 97%
Optimal Guide/Aperture = 0.6um (nearest 0.1um)
../_images/notebooks_MOONs_3_1.png
../_images/notebooks_MOONs_3_2.png 
[ ]: