STUDY OF PROPERTIES AND DEMOGRAPHY OF CLUMPY GALAXIESBEYOND Z > 3 WITH JWST DATA
High redshift star-forming galaxies are known to have different shapes compared to star-forming galaxies in the local universe. These galaxies exhibit irregular shapes and are generally clumpy. These clump features typically have sizes on the kiloparsec scale and possess higher star formation act...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/84338 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | High redshift star-forming galaxies are known to have different shapes compared
to star-forming galaxies in the local universe. These galaxies exhibit irregular
shapes and are generally clumpy. These clump features typically have
sizes on the kiloparsec scale and possess higher star formation activity compared
to the surrounding regions. Clumps are known to form through several
mechanisms, such as VDI (Violent Disk Instability) and mergers.
This Final Project study aims to analyze 720 spectroscopically identified
clumpy galaxies with z > from four JWST observation fields that are also
equipped with previous HST observations: CEERS, COSMOS-Web, FRESCO,
and PRIMER-UDS. The parameters of these galaxies have been obtained from
pre-processed data using the grizli and EAZY pipelines. The detection of clumpy
galaxies was conducted automatically using a thresholding segmentation
algorithm with PHOTUTILS.
Clumpy galaxies were found to have higher stellar mass and star formation
rates than non-clumpy galaxies. This facts also supported by the higher fraction
of clumpy galaxies at bright MUV values. However, in their star-forming
phase, clumpy galaxies do not exhibit active star formation activity but are
instead in the main sequence and green valley phases. Over time, the fraction
of clumpy galaxies increases from 20% at z = 6 to 60% at z = 3. This study
found that the merger rate of clumpy galaxies cannot be explained solely by
major mergers but additional scenarios such as minor mergers and VDI are
needed. This is also evidenced by the comparison with the trend fit of SFRD
(Star Formation Rate Density) correlating with the VDI scenario and major
merger rate in the fraction of clumpy galaxies relative to redshift. Clump formation
from the VDI and merger scenarios occurs in comparable amounts at
z = 3 ? 7, as shown by the clump distance plot. This conclusion reveals there
is a transition in clump formation modes from mergers to VDI as redshift
decreases or as the universe ages. |
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