Here we test the predictions of the theory of the origin of the universe from the landscape multiverse , against the 2015 Planck data , for the case of the Hilltop class of inflationary models , for p = 4 and p = 6 .
By considering the quantum entanglement correction of the multiverse , we can place just a lower limit on the local ’ SUSY-breaking ’ scale , respectively b > 8.7 \times 10 ^ { 6 } GeV at 95 \% c.l .
and b > 1.3 \times 10 ^ { 8 } GeV at 95 \% c.l .
from Planck TT+lowP , so the case with multiverse correction is statistically indistinguishable from the case with an unmodified inflation .
We find that the series of anomalies predicted by the quantum landscape multiverse for the allowed range of b , is consistent with Planck ’ s tests of the anomalies .
In addition , the friction between the two cosmological probes of the Hubble parameter and with the weak lensing experiments goes away for a particular subset , the p = 6 case of Hilltop models .