add misc files
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Magnus Ulimoen
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#! /usr/bin/env python3
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import numpy as np
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A = np.array([[0, 0, 0], [0, 0, -1], [0, -1, 0]])
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B = np.array([[0, 1, 0], [1, 0, 0], [0, 0, 0]])
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def similarity_transform(matrix):
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L, S = np.linalg.eig(matrix)
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L = np.diag(L)
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S = S.transpose()
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assert np.allclose(np.matmul(S.transpose(), np.matmul(L, S)), matrix)
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return L, S
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def plusminus(matrix):
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L, S = similarity_transform(matrix)
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def signed(op):
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return 0.5 * np.matmul(S.transpose(), np.matmul(op(L, np.abs(L)), S))
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plus = signed(np.add)
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minus = signed(np.subtract)
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assert np.allclose(matrix, plus + minus)
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return plus, minus
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Aplus, Aminus = plusminus(A)
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Bplus, Bminus = plusminus(B)
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print("A+")
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print(Aplus)
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print("A-")
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print(Aminus)
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print()
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print("B+")
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print(Bplus)
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print("B-")
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print(Bminus)
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#! /usr/bin/env python3
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import sympy as sp
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A = sp.Matrix([[0, 0, 0], [0, 0, -1], [0, -1, 0]])
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B = sp.Matrix([[0, 1, 0], [1, 0, 0], [0, 0, 0]])
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kx, ky = sp.symbols("kx ky")
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A = kx * A + ky * B
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print("flux")
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sp.pprint(A)
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eigenvalues = A.eigenvals()
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# sp.pprint(eigenvalues)
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eigenvectors = A.eigenvects()
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# sp.pprint(eigenvectors)
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S, L = A.diagonalize()
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Labs = (L*L)**0.5
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plus = S*(L + Labs)*S.inv()/2
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minus = S*(L - Labs)*S.inv()/2
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Ahat = plus + minus
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plus.simplify()
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minus.simplify()
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print("Positive flux")
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r = sp.symbols("r")
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sp.pprint(plus.subs((kx*kx + ky*ky)**0.5, r))
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print("Negative flux")
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sp.pprint(minus.subs((kx*kx + ky*ky)**0.5, r))
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print("r = ")
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sp.pprint((kx*kx + ky*ky)**0.5)
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print("Evaluations:")
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print("plus (1, 0)")
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sp.pprint(plus.subs(kx, 1).subs(ky, 0))
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print("plus (0, 1)")
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sp.pprint(plus.subs(kx, 0).subs(ky, 1))
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print("plus (1/sqrt(2), 1/sqrt(2)")
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sp.pprint(plus.subs(kx, 1/2**0.5).subs(ky, 1/2**0.5))
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print("positive flux - negative flux")
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S = plus - minus
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S.simplify
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sp.pprint(S.subs((kx*kx + ky*ky)**0.5, r))
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import numpy as np
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rstar = 0.5 # Fixed radius
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eps = 1.0
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M = 0.1 # Indirectly sets p_inf
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gamma = 1.4 # Solid
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p_inf = 1.0 / (gamma * M * M)
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print(f"p_inf: {p_inf}")
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dx = 10000.0
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dy = 100.0
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f = (1 - (dx*dx + dy*dy))/(rstar*rstar)
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print(f"f: {f}")
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# print(eps*dy/(2*np.pi*np.sqrt(p_inf)*rstar * rstar) * np.exp(f / 2))
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u = 1.0 - eps*dy/(2*np.pi*np.sqrt(p_inf)*rstar * rstar) * np.exp(f / 2)
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v = 0.0 + eps*dx/(2*np.pi*np.sqrt(p_inf)*rstar * rstar) * np.exp(f / 2)
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print(f"sub p: {eps*eps*(gamma - 1)*M*M / (8*np.pi*np.pi*p_inf*rstar*rstar)*np.exp(f)}")
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rho = np.power(1.0 - eps*eps*(gamma - 1)*M*M / (
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8*np.pi*np.pi*p_inf*rstar*rstar)*np.exp(f), 1.0/(gamma - 1))
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p = (rho**gamma)*p_inf
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print(f"p: {p}")
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e = p / (gamma - 1) + rho*(u**2 + v**2) / 2
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print(f"rho: {v}")
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print(f"u: {u}")
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print(f"v: {v}")
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print(f"e: {e}")
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