PHYSICAL PARAMETERS OF ABELL 2040 GALAXY CLUSTER AND GALAXY GROUPS AROUND IT
A galaxy cluster is a structure consisting of hundreds to thousands of galaxies, hot x-ray-emitting gas, and dark matter that are bound together by gravity, being one of the largest structures in the universe. A swarm of galaxies can be categorized as a galaxy cluster if the swarm has a mass of a...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77101 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | A galaxy cluster is a structure consisting of hundreds to thousands of galaxies,
hot x-ray-emitting gas, and dark matter that are bound together by gravity,
being one of the largest structures in the universe. A swarm of galaxies can
be categorized as a galaxy cluster if the swarm has a mass of at least M ?
3×1014M?, formed by 50 galaxies, and has a density high enough to keep the
forming galaxies in a certain radius r from the navel. A galaxy cluster can be
tested by existing theories to know its physical parameters.
The galaxy cluster this thesis will examine is Abell 2040 galaxy cluster,
which is registered in The Abell Catalogue (1958). While the data source is
from Sloan Digital Sky Survey Data Release 18 (SDSS DR18). The purpose of
this thesis is to know the physical parameters, which consist of its morphology,
redshift, projection radius, membership, mass, and local group galaxies. There
are several methods used in the data processing. To specify what Abell 2040
galaxy cluster is defined into, this thesis uses a statistical approach by (Bukhari
dan Cram, 2003) and Cut and Enhance method (Goto et al., 2002). On
the Bukhari method, clustering galaxies is based on its projection radius and
radial velocity. Evaluating galaxies’ membership is done by enlarging Sr and
Sv values multiplied by 10%, cluster that has S?r dan S?v value below Sr and
Sv value is qualified for the galaxy cluster membership. While the Cut and
Enhance method is determined by 2 stages, the first stage is color cut that
uses color and magnitude correlation using a color cut of g – r, r – i, and i –
z with bin used for each are 0,2; 0,1; and 0,1. The second stage is Enhance to
evaluate the galaxy cluster membership by using the result from the Color Cut
stage. Both methods are then compared to increase accuracy in determining
the physical parameters of the Abell 2040 galaxy cluster. While Projected Mass
Estimator method by Heisler in 1985, which was designed to avoid problems
found in the virial theorem, is used to get the galaxy cluster mass value.
The result after data processing is that Abell 2040 galaxy cluster has morphology
of III ? E, 0.045055 redshift, 207.327 Mpc luminosity distance, projection
radius 1.8 Mpc, and has 122 galaxy members with mass 1.58×1015M?.
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