Esempi in Python per ispin_avg, esempi in Python per c51lib.ispin_avg

Esempio n. 1

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File: tuneproton.py Progetto: erinaldi/c51scripts

def read_proton(pr):
    # read data
    p_up = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_spin_up'])
    p_dn = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_spin_dn'])
    pnp_up = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_np_spin_up'])
    pnp_dn = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_np_spin_dn'])
    p_savg = c51.ispin_avg(p_up, p_dn)
    pnp_savg = c51.ispin_avg(pnp_up, pnp_dn)
    p_avg = c51.parity_avg(p_savg, pnp_savg, phase=-1.0)
    T = len(p_avg[0])
    p_avg = p_avg[:, :T/2] # keep only first half of data ('folded' length)
    if pr.plot_data_flag == 'on':
        # folded correlator data
        p_ss = p_avg[:,:,0,0]
        p_ps = p_avg[:,:,3,0]
        c51.scatter_plot(np.arange(len(p_ss[0])), c51.make_gvars(p_ss), 'proton ss folded')
        c51.scatter_plot(np.arange(len(p_ps[0])), c51.make_gvars(p_ps), 'proton ps folded')
        # effective mass
        eff = c51.effective_plots(T)
        meff_ss = eff.effective_mass(c51.make_gvars(p_ss)[1:], 1, 'cosh')
        meff_ps = eff.effective_mass(c51.make_gvars(p_ps)[1:], 1, 'cosh')
        xlim = [1, len(meff_ss)] #*2/5]
        #ylim = [0.7, 1.1]
        ylim = [0.3, 0.9]
        #ylim = c51.find_yrange(meff_ss, xlim[0], xlim[1])
        c51.scatter_plot(np.arange(len(meff_ss))+1, meff_ss, 'proton ss effective mass', xlim = xlim, ylim = ylim)
        #ylim = c51.find_yrange(meff_ps, xlim[0], xlim[1])
        c51.scatter_plot(np.arange(len(meff_ps))+1, meff_ps, 'proton ps effective mass', xlim = xlim, ylim = ylim)
        # scaled correlator
        E0 = pr.priors['proton']['E0'][0]
        scaled_ss = eff.scaled_correlator(c51.make_gvars(p_ss), E0, phase=1.0)
        scaled_ps = eff.scaled_correlator(c51.make_gvars(p_ps), E0, phase=1.0)
        ylim = c51.find_yrange(scaled_ss, xlim[0], xlim[1]/2)
        c51.scatter_plot(np.arange(len(scaled_ss)), scaled_ss, 'proton ss scaled correlator (take sqrt to get Z0_s)', xlim = xlim, ylim = ylim)
        ylim = c51.find_yrange(scaled_ps, xlim[0], xlim[1]/2)
        c51.scatter_plot(np.arange(len(scaled_ps)), scaled_ps, 'proton ps scaled correlator (divide by Z0_s to get Z0_p)', xlim = xlim, ylim = ylim)
        plt.show()
    return p_avg, T

Esempio n. 2

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def read_proton(pr):
    # read data
    p_up = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_spin_up'])
    p_dn = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_spin_dn'])
    pnp_up = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_np_spin_up'])
    pnp_dn = c51.open_data(pr.data_loc['file_loc'], pr.data_loc['proton_np_spin_dn'])
    p_savg = c51.ispin_avg(p_up, p_dn)
    pnp_savg = c51.ispin_avg(pnp_up, pnp_dn)
    p_avg = c51.parity_avg(p_savg, pnp_savg, phase=-1.0)
    T = len(p_avg[0])
    p_avg = p_avg[:, :T/2] # keep only first half of data ('folded' length)
    if pr.plot_data_flag == 'on':
        # folded correlator data
        p_ss = p_avg[:,:,0,0]
        p_ps = p_avg[:,:,3,0]
        c51.scatter_plot(np.arange(len(p_ss[0])), c51.make_gvars(p_ss), 'proton ss folded')
        c51.scatter_plot(np.arange(len(p_ps[0])), c51.make_gvars(p_ps), 'proton ps folded')
        # effective mass
        eff = c51.effective_plots(T)
        meff_ss = eff.effective_mass(c51.make_gvars(p_ss)[1:], 1, 'cosh')
        meff_ps = eff.effective_mass(c51.make_gvars(p_ps)[1:], 1, 'cosh')
        xlim = [1, len(meff_ss)] #*2/5]
        ylim = [0.6, 1.2]
        #ylim = c51.find_yrange(meff_ss, xlim[0], xlim[1])
        c51.scatter_plot(np.arange(len(meff_ss))+1, meff_ss, 'proton ss effective mass', xlim = xlim, ylim = ylim)
        #ylim = c51.find_yrange(meff_ps, xlim[0], xlim[1])
        c51.scatter_plot(np.arange(len(meff_ps))+1, meff_ps, 'proton ps effective mass', xlim = xlim, ylim = ylim)
        # scaled correlator
        E0 = pr.priors['proton']['E0'][0]
        scaled_ss = eff.scaled_correlator(c51.make_gvars(p_ss), E0, phase=1.0)
        scaled_ps = eff.scaled_correlator(c51.make_gvars(p_ps), E0, phase=1.0)
        ylim = c51.find_yrange(scaled_ss, xlim[0], xlim[1])
        c51.scatter_plot(np.arange(len(scaled_ss)), scaled_ss, 'proton ss scaled correlator (take sqrt to get Z0_s)', xlim = xlim, ylim = ylim)
        ylim = c51.find_yrange(scaled_ps, xlim[0], xlim[1])
        c51.scatter_plot(np.arange(len(scaled_ps)), scaled_ps, 'proton ps scaled correlator (divide by Z0_s to get Z0_p)', xlim = xlim, ylim = ylim)
    return p_avg, T

Esempio n. 3

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#path = 'l2464f211b600m0102m0509m635/wf1p0_m51p2_l58_a51p5_smrw4p0_n100/spectrum/ml0p0126_ms0p0696/'
#path = 'l2464f211b600m0102m0509m635/wf1p0_m51p2_l58_a51p5_smrw7p0_n150/spectrum/ml0p0126_ms0p0696/'
#path = 'l2464f211b600m0102m0509m635/wf1p0_m51p2_l58_a51p5_smrw5p0_n75/spectrum/ml0p0126_ms0p0696/'
#filename = 'l3296f211b630m0074m037m440e_tune_avg.h5'
#path = 'l3296f211b630m0074m037m440/wf1p0_m51p1_l56_a51p5_smrw7p5_n167/spectrum/ml0p00950_ms0p0490/'
#filename = 'l3264f211b600m00507m0507m628a_avg.h5'
#path = 'l3264f211b600m00507m0507m628/wf1p0_m51p2_l512_a52p0_smrw5p5_n75/spectrum/ml0p00600_ms0p0693/'
#path = 'l3264f211b600m00507m0507m628/wf1p0_m51p2_l512_a52p0_smrw6p0_n90/spectrum/ml0p00600_ms0p0693/'
filename = 'l3248f211b580m00235m0647m831a_avg.h5'
path = 'l3248f211b580m00235m0647m831/wf1p0_m51p3_l524_a53p5_smrw4p5_n60/spectrum/ml0p00211_ms0p0902/'

datapath = path + 'proton/spin_up'
data_up = c51.read_data(filename, datapath, 0, 0)
datapath = path + 'proton/spin_dn'
data_dn = c51.read_data(filename, datapath, 0, 0)
data_pos = c51.ispin_avg(data_up, data_dn)
#Read spin averaged negative parity proton
datapath = path + 'proton_np/spin_up'
data_up = c51.read_data(filename, datapath, 0, 0)
datapath = path + 'proton_np/spin_dn'
data_dn = c51.read_data(filename, datapath, 0, 0)
data_neg = c51.ispin_avg(data_up, data_dn)
#Parity average
data_ss = c51.parity_avg(data_pos, data_neg, -1)
datapath = path + 'proton/spin_up'
data_up = c51.read_data(filename, datapath, 3, 0)
datapath = path + 'proton/spin_dn'
data_dn = c51.read_data(filename, datapath, 3, 0)
data_pos = c51.ispin_avg(data_up, data_dn)
#Read spin averaged negative parity proton
datapath = path + 'proton_np/spin_up'

Esempio n. 4

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File: proton.py Progetto: erinaldi/c51scripts

#path = 'l2464f211b600m0102m0509m635/wf1p0_m51p2_l58_a51p5_smrw4p0_n100/spectrum/ml0p0126_ms0p0696/'
#path = 'l2464f211b600m0102m0509m635/wf1p0_m51p2_l58_a51p5_smrw7p0_n150/spectrum/ml0p0126_ms0p0696/'
#path = 'l2464f211b600m0102m0509m635/wf1p0_m51p2_l58_a51p5_smrw5p0_n75/spectrum/ml0p0126_ms0p0696/'
#filename = 'l3296f211b630m0074m037m440e_tune_avg.h5'
#path = 'l3296f211b630m0074m037m440/wf1p0_m51p1_l56_a51p5_smrw7p5_n167/spectrum/ml0p00950_ms0p0490/'
#filename = 'l3264f211b600m00507m0507m628a_avg.h5'
#path = 'l3264f211b600m00507m0507m628/wf1p0_m51p2_l512_a52p0_smrw5p5_n75/spectrum/ml0p00600_ms0p0693/'
#path = 'l3264f211b600m00507m0507m628/wf1p0_m51p2_l512_a52p0_smrw6p0_n90/spectrum/ml0p00600_ms0p0693/'
filename = 'l3248f211b580m00235m0647m831a_avg.h5'
path = 'l3248f211b580m00235m0647m831/wf1p0_m51p3_l524_a53p5_smrw4p5_n60/spectrum/ml0p00211_ms0p0902/'

datapath = path+'proton/spin_up'
data_up = c51.read_data(filename, datapath, 0, 0)
datapath = path+'proton/spin_dn'
data_dn = c51.read_data(filename, datapath, 0, 0)
data_pos = c51.ispin_avg(data_up, data_dn)
#Read spin averaged negative parity proton
datapath = path+'proton_np/spin_up'
data_up = c51.read_data(filename, datapath, 0, 0)
datapath = path+'proton_np/spin_dn'
data_dn = c51.read_data(filename, datapath, 0, 0)
data_neg = c51.ispin_avg(data_up, data_dn)
#Parity average
data_ss = c51.parity_avg(data_pos, data_neg, -1)
datapath = path+'proton/spin_up'
data_up = c51.read_data(filename, datapath, 3, 0)
datapath = path+'proton/spin_dn'
data_dn = c51.read_data(filename, datapath, 3, 0)
data_pos = c51.ispin_avg(data_up, data_dn)
#Read spin averaged negative parity proton
datapath = path+'proton_np/spin_up'