The SN P region is a constraint made from the relative change of the apparent magnitude of supernovae as a function of r
Posted: Thu Feb 17, 2022 11:06 am
The SN P region is a constraint made from the relative change of
the apparent magnitude of supernovae as a function of redshift (the
‘P’ refers to the ‘Pantheon’ compilation of supernovae). The CV SN
region, on the other hand, is the local determination of
H0 using Type Ia supernovae with absolute magnitudes
calibrated by reference to Cepheid variables. What makes Type Ia
SNe particularly suitable for cosmological constraints?
0.60 Cosmio Age TDSL CV SN 0.55 13 Gy! 12.5G 13.535 Gy! 0.50 BAO Low HMI се 0.45 0.40 DES! 75 0.35 Planck 0.30 BAO Nigh MA WMAP HMI 0.25 SNP 0.20 7-ray 0.15 55.0 57.5 60.0 62.5 65.0 70.0 72.5 75.0 77.5 80.0 67.5 Но
the apparent magnitude of supernovae as a function of redshift (the
‘P’ refers to the ‘Pantheon’ compilation of supernovae). The CV SN
region, on the other hand, is the local determination of
H0 using Type Ia supernovae with absolute magnitudes
calibrated by reference to Cepheid variables. What makes Type Ia
SNe particularly suitable for cosmological constraints?
- The Sn P Region Is A Constraint Made From The Relative Change Of The Apparent Magnitude Of Supernovae As A Function Of R 1 (26.89 KiB) Viewed 63 times