57 lines
1.4 KiB
Python
57 lines
1.4 KiB
Python
import numpy as np
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import pylab as pl
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# recurrence relation is H_n(x) = 2*x*H_{n-1}(x) - 2*(n-1)*H_{n-2}(x)
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# source https://en.wikipedia.org/wiki/Hermite_polynomials
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def hermite(x: np.ndarray, n: int) -> np.ndarray:
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if n == 0:
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return 1.0 + 0.0 * x
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if n == 1:
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return 2.0 * x
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return 2.0 * x * hermite(x, n - 1) - 2.0 * (n - 1) * hermite(x, n - 2)
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def normalize(psi: np.ndarray) -> None:
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psi /= np.sqrt(np.sum(psi * np.conjugate(psi)))
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x_vals = np.linspace(-5, 5, 1000)
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gaussian = np.exp(-x_vals ** 2)
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psi_funcs = []
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for n in range(4):
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psi = hermite(x_vals, n) * gaussian
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normalize(psi)
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psi_funcs.append(psi)
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print("===================")
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print("Check Orthogonality")
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print("===================")
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for i in range(4):
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for j in range(i, 4):
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print(f'psi_{i} * psi_{j} = {np.dot(psi_funcs[i], psi_funcs[j])}')
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print("==================")
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print("Expectation Values")
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print("==================")
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for psi in psi_funcs:
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pass # TODO
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pl.rcParams['figure.dpi'] = 300
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fig, axs = pl.subplots(2, 2, tight_layout=True)
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fig.tight_layout(pad=2.0)
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axs[0, 0].plot(x_vals, psi_funcs[0])
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axs[0, 0].set_title('ψ0')
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axs[0, 0].grid()
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axs[0, 1].plot(x_vals, psi_funcs[1], 'tab:orange')
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axs[0, 1].set_title('ψ1')
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axs[0, 1].grid()
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axs[1, 0].plot(x_vals, psi_funcs[2], 'tab:green')
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axs[1, 0].set_title('ψ2')
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axs[1, 0].grid()
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axs[1, 1].plot(x_vals, psi_funcs[3], 'tab:red')
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axs[1, 1].set_title('ψ3')
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axs[1, 1].grid()
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pl.show()
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