THE CHAMELEON MECHANISM IN THE BRANS-DICKE SCALAR TENSOR MODEL
An investigation was conducted on the chameleon mechanism within the scalar tensor Brans-Dicke theory. The fundamental concept of the standard chameleon mechanism is retained, wherein the field becomes massive in regions with high matter density but possesses a very small mass on the scale of the...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/86506 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | An investigation was conducted on the chameleon mechanism within the scalar
tensor Brans-Dicke theory. The fundamental concept of the standard chameleon
mechanism is retained, wherein the field becomes massive in regions with high
matter density but possesses a very small mass on the scale of the solar system,
where matter density is extremely low. Thin-shell solutions are found for static and
spherically symmetric objects, demonstrating the relevance of this model to
observations on a local scale. To reinforce its role as an accelerator of universe
expansion, the stability of the mechanism is explored. By analyzing the modified
Friedmann equations, autonomous equations are formulated to determine the
critical points for this mechanism. A constraint is defined on the Brans-Dicke
parameter ??????
?
, identifying two stability groups, ?????? > ??????
?
and 0 < ???????????? < ????????????
?
.
The first group achieves stability with both appropriate eigenvalues and density
parameter characteristic consistent with dark energy dominance. The second
exhibits eigenvalue stability but contradicts conditions for a stable universe. The
impact of variations in the scalar field potential and matter coupling is explored by
analyzing different parameter sets. Each unique set of parameters results in a
distinct ??????
?
. These findings indicate that system stability is achieved when the
kinetic term of the scalar field and its potential dominate, emphasizing the crucial
role of this mechanism as an accelerator of universe expansion.
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