![]() # Let's compare the optical behaviour of some of those sources: # pageid = 0, Johnson # pageid = 2, McPeak # pageid = 8, Hagemann # pageid = 12, Rakic (BB) # create instances of materials with the optical constants from the database. This shows us entries with # "pageid"s 0 to 14 correspond to silver. search_db ( 'Ag', exact = True ) # This prints out, line by line, matching entries. # download_db() # Can search the database to select an appropriate entry. # Can specify the source URL and number of interpolation points. wavelength = wl # Download the database from. arange ( 100, 900, 10 ), 'nm' ) opts = default_options opts. From solcore.absorption_calculator.nk_db import download_db, search_db from solcore import material from solcore import si from solcore.solar_cell import SolarCell from solcore.structure import Layer from solcore.solar_cell_solver import solar_cell_solver, default_options import numpy as np import matplotlib.pyplot as plt wl = si ( np. ![]()
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