Hemisphere disks centered on nside=16, 3072 pixels
Fig1. - The mean dipole directions estimated on local power spectra as a function of minimum (per plot) and maximum (per frame) multipoles.Fig2. - The mean power spectrum ratio on opposite pixels, A_mean = , map as a function of maximum (lmax) multipoles.Fig3. - The mean power spectrum ratio on opposite pixels, A_mean = , map as a function of minimum (l_min) multipoles.Fig4. - Sifnificance map, the ratio of simulations with A_mean_sim > A_mean_data, as a function of maximum (l_max) multipole .Fig5. - Sifnificance map, the ratio of simulations with A_mean_sim > A_mean_data, as a function of minimum (l_min) multipole .
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90 degree diameter disk centered on nside=16, 3072 pixels
Fig6. - The mean dipole directions estimated on local power spectra as a function of minimum (per plot) and maximum (per frame) multipoles.Fig7. - The mean power spectrum ratio on opposite pixels, A_mean = , map as a function of maximum (lmax) multipoles.Fig8. - The mean power spectrum ratio on opposite pixels, A_mean = , map as a function of minimum (l_min) multipoles.Fig9. - Sifnificance map, the ratio of simulations with A_mean_sim > A_mean_data, as a function of maximum (l_max) multipole .Fig10. - Sifnificance map, the ratio of simulations with A_mean_sim > A_mean_data, as a function of minimum (l_min) multipole .
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Dipole directions from power spectrum ratio maps
Fig11. - hemisphere disk: the dipole directions estimated using Delta_Cl*100 /Cl ratio, to be compared with the dipole directions estimated on local power spectra.Fig12. - 90 degree diameter disk:<\em> the dipole directions estimated using Delta_Cl*100 /Cl ratio, to be compared with the dipole directions estimated on local power spectra.
Last modified: Sun May 12 23:26:52 CEST 2013
