Example #1
0
def plot_husimi_data(rho, title=""):
    """
    """
    # params = {# 'backend': 'ps',
    #       'axes.labelsize': 6,
    #       'font.size': 6,
    #       'xtick.labelsize': 6,
    #       'ytick.labelsize': 6,
    #       'axes.labelpad': 1,
    #       'text.usetex': False,
    #       'figure.figsize': fig_size}
    # plt.rcParams.update(params)

    #     rho_tf = dm_to_tf([rho])
    #     data = batched_expect(ops_batch_husimi, rho_tf)
    #     x = data.numpy().reshape((len(xvec), len(xvec)))
    xvec = np.linspace(-5, 5, 32)
    yvec = np.linspace(-5, 5, 32)
    x = qfunc(rho, xvec * np.sqrt(2), yvec * np.sqrt(2))

    fig, ax = plt.subplots(1, 1, figsize=(fig_width / 3.5, fig_width / 3.5))

    im = ax.pcolor(xvec, yvec, x / np.max(x), cmap="hot", vmin=0., vmax=1)
    ax.set_aspect("equal")
    ax.set_yticks([-5, 0, 5])
    ax.set_xlabel(r"Re$(\beta)$", labelpad=0)
    ax.set_ylabel(r"Im$(\beta)$", labelpad=-5)
    cbar = plt.colorbar(im, fraction=0.0455, ticks=[0, 0.5, 1])
    cbar.ax.set_yticklabels(["0", "0.5", "1"])
    ax.set_title(title, y=0.93)
    cbar.solids.set_edgecolor("face")

    return fig, ax
Example #2
0
def test_qfunc_dm():
    "Husimi Q: Compare with/without precomputation for rand. dm"
    N = 20
    xvec = np.linspace(-10, 10, 128)
    for _ in range(3):
        rho = rand_dm(N)

        precomp = qfunc_precompute(xvec, xvec, N)

        q_default = qfunc(rho, xvec, xvec, precompute=None)
        q_false = qfunc(rho, xvec, xvec, precompute=False)
        q_true = qfunc(rho, xvec, xvec, precompute=True)
        q_precomp = qfunc(rho, xvec, xvec, precompute=precomp)

        assert_equal(q_true, q_default)  # Default: precompute
        assert_equal(q_true,
                     q_precomp)  # Compare precomputing before/during the call
        assert_equal(np.sum(np.abs(q_true - q_false)) < 1e-7,
                     True)  # Compare with/without
Example #3
0
    def update(self, rho):

        self.data = qfunc(rho, self.xvecs[0], self.xvecs[1])
Example #4
0
    def update(self, rho):

        self.data = qfunc(rho, self.xvecs[0], self.xvecs[1])