PENENTUAN NILAI KONSTANTA HUBBLE DENGAN MENGGUNAKAN DATA BARYON ACOUSTIC OSCILLATIONS (BAO)
Hubble's constant measures the current rate of development of the universe. In addition, the value is needed in determining other quantities that are important in cosmology. Therefore the determination of the Hubble constant becomes an important issue in astronomy. The main obstacle in deter...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/42850 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Hubble's constant measures the current rate of development of the universe. In
addition, the value is needed in determining other quantities that are important in cosmology.
Therefore the determination of the Hubble constant becomes an important issue in
astronomy. The main obstacle in determining the value of the Hubble constant is the
calculation of the distance that must be precise. In general, the method of determining the
Hubble constant is divided into two major groups, namely the distance ladder method on low
redshift (local scale) and cosmological observations on high redshift (global scale). Since
2003 there has been a tension between the local and global observations, which has not been
resolved until now. Even the results of the local determination represented by SN Ia (Riess,
2019) are in 4.4? mismatch with the global determination represented by Planck 2018
(Planck Collaboration, 2018).
In this Final Project, the Hubble constant is determined using a global method using
Baryon Acoustic Oscillations (BAO) data. BAO is a photon-baryon's fluid harmonic
oscillation event in the potential for dark matter before the decopling era. Perturbations in the
photon-baryon's fluid spread out at the speed of sound. After the decopling era, photons will
be decoupled from protons and electrons and spread free (free streaming), while the baryons
will be left behind and stacked on a radius called the drag radius, which is nothing but the
sound horizon radius (~ 150 Mpc).
In this Final Project the Hubble constant is determined using the MCMC method in
the CosmoMC program package. BAO data used in the form of tertiary data from universe
survey projects, namely SDSS, WiggleZ, 6dfGS, and DR14Lyman. In addition to the BAO
data, the Planck 2018 CMB-TT (Temperature) data is used as a comparison as well as to
tighten the constraints for determining cosmological parameters. Priors are defined following
the standard model ?CDM. In general, the results of determining Hubble's constant BAO
data are consistent with results with CMB.
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