using Roots, LinearAlgebra, Plots include("../ho_basis.jl") include("../EC.jl") include("../common.jl") V_of_r(r) = 2 * exp(-(r-3)^2 / (1.5)^2) Λ = 0 m = 1.0 ϕ = 0.0 μω_global = 0.5 * exp(-2im * ϕ) E_max = 40 H0 = get_3b_H_matrix(jacobi, V_of_r, μω_global, E_max, Λ, m, true, true) # Vp = perturbation to make the state artificially bound Vp_of_r(r) = -exp(-(r/3)^2) @time "Vp" Vp = get_3b_H_matrix(jacobi, Vp_of_r, μω_global, E_max, Λ, m, false, true) ref_E = -2.22 training_c = [3.0, 2.6, 2.2, 1.8] EC = affine_EC(H0, Vp) train!(EC, training_c; ref_eval=ref_E, CAEC=false) training_E = EC.training_E quick_extrapolate(c) = argmin(real, get_extrapolated_evals(EC.H0_EC, EC.H1_EC, EC.N_EC, c, 0)) n_EC = 30 EC_c = (1.8 .+ rand(n_EC)) .+ 0.001im .* (-2 .+ 4 * rand(n_EC)) target_c = 0.0 : 0.2 : 1.2 exact_E = [4.076662025307587-0.012709842443350328im, 3.613318119833891-0.007335804709990623im, 3.1453431847006783-0.004030580410326795im, 2.672967129943755-0.00211498327461944im, 2.196542557810288-0.0010719835443437104im, 1.7164583929199813-0.0005455212208182736im, 1.233088227541505-0.0003070320106485624im] EC_E = [quick_extrapolate(c) for c in EC_c] # determining c0 with EC c0 = find_zero(c -> abs2(quick_extrapolate(c)), 0.85) println("Estimated c0 = ", c0) EC_k = alt_sqrt.(EC_E) order::Int = 5 # order of the Pade approximant # Solve coefficients as a linear system M_left_element(c, i) = alt_sqrt(c - c0)^i M_left = M_left_element.(EC_c, (0:order)') M_right = -EC_k .* M_left[:, 2:end] # remove the first column M = hcat(M_left, M_right) # M = [M_left | M_right] sol = M \ EC_k a = sol[1:order+1] b = [1; sol[order+2:end]] # Pade approximant polynomial(a, c) = sum(i -> a[i+1] * alt_sqrt(c - c0)^i, 0:order) pade_approx(c) = polynomial(a, c) / polynomial(b, c) # Extrapolate extrapolated_k = pade_approx.([EC_c; target_c]) extrapolated_E = (extrapolated_k .^ 2) # Plotting scatter(real.(training_E), imag.(training_E), label="training") scatter!(real.(exact_E), imag.(exact_E), label="exact") scatter!(real.(EC_E), imag.(EC_E), label="EC", m=:star5) scatter!(real.(extrapolated_E), imag.(extrapolated_E), label="ACCC", m=:x) savefig("temp/EC+ACCC.pdf")