Effects of chameleon scalar field on rotation curves of the galaxies

Piyabut Burikham; Sirachak Panpanich

doi:10.1142/S0218271812500411

Effects of chameleon scalar field on rotation curves of the galaxies

Piyabut Burikham, Sirachak Panpanich

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

We investigate the effects of chameleon scalar field to the effective density and pressure of a dark matter (DM) halo. The pressure is generated from the chameleonic fifth force on the matter. We demonstrate that the thick-shell nonsingular boundary condition which forbids singular point, leads to extremely stringent constraint on the matter-chameleon coupling when applied to galaxy. We argue that chameleon profile with central singularity is more likely to develop in general physical situation. The chameleonic fifth force from the chameleon profile with central singularity experienced by DM could significantly modify the rotation curve of galaxies. The chameleonic fifth force could generate steeper cusp to the rotation curves in any DM profiles starting from the NavarroFrenkWhite (NFW) to the pseudo-isothermal (ISO) profile. Upper limits on the coupling constant between the chameleon and DM are estimated from observational data of the late-type low surface brightness galaxies (LSB). It is in the order of β < 10 ^-3.

Original language	English
Article number	12500411
Journal	International Journal of Modern Physics D
Volume	21
Issue number	5
DOIs	https://doi.org/10.1142/S0218271812500411
Publication status	Published - 2012 May
Externally published	Yes

Keywords

Chameleon scalar field
rotation curve

ASJC Scopus subject areas

Mathematical Physics
Astronomy and Astrophysics
Space and Planetary Science

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abstract = "We investigate the effects of chameleon scalar field to the effective density and pressure of a dark matter (DM) halo. The pressure is generated from the chameleonic fifth force on the matter. We demonstrate that the thick-shell nonsingular boundary condition which forbids singular point, leads to extremely stringent constraint on the matter-chameleon coupling when applied to galaxy. We argue that chameleon profile with central singularity is more likely to develop in general physical situation. The chameleonic fifth force from the chameleon profile with central singularity experienced by DM could significantly modify the rotation curve of galaxies. The chameleonic fifth force could generate steeper cusp to the rotation curves in any DM profiles starting from the NavarroFrenkWhite (NFW) to the pseudo-isothermal (ISO) profile. Upper limits on the coupling constant between the chameleon and DM are estimated from observational data of the late-type low surface brightness galaxies (LSB). It is in the order of β < 10 -3.",

keywords = "Chameleon scalar field, rotation curve",

author = "Piyabut Burikham and Sirachak Panpanich",

note = "Funding Information: We would like to thank Maneenate Wechakama and Wiphu Rujopakarn for valuable discussions and suggestion on the LSB galaxy data. P. B. and S. P. are supported in part by the 90th Year Chulalongkorn Scholarship and Toray Science Foundation, Japan (TSF). P. B. is supported in part by Thailand Center of Excellence in Physics (ThEP).",

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PY - 2012/5

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N2 - We investigate the effects of chameleon scalar field to the effective density and pressure of a dark matter (DM) halo. The pressure is generated from the chameleonic fifth force on the matter. We demonstrate that the thick-shell nonsingular boundary condition which forbids singular point, leads to extremely stringent constraint on the matter-chameleon coupling when applied to galaxy. We argue that chameleon profile with central singularity is more likely to develop in general physical situation. The chameleonic fifth force from the chameleon profile with central singularity experienced by DM could significantly modify the rotation curve of galaxies. The chameleonic fifth force could generate steeper cusp to the rotation curves in any DM profiles starting from the NavarroFrenkWhite (NFW) to the pseudo-isothermal (ISO) profile. Upper limits on the coupling constant between the chameleon and DM are estimated from observational data of the late-type low surface brightness galaxies (LSB). It is in the order of β < 10 -3.

AB - We investigate the effects of chameleon scalar field to the effective density and pressure of a dark matter (DM) halo. The pressure is generated from the chameleonic fifth force on the matter. We demonstrate that the thick-shell nonsingular boundary condition which forbids singular point, leads to extremely stringent constraint on the matter-chameleon coupling when applied to galaxy. We argue that chameleon profile with central singularity is more likely to develop in general physical situation. The chameleonic fifth force from the chameleon profile with central singularity experienced by DM could significantly modify the rotation curve of galaxies. The chameleonic fifth force could generate steeper cusp to the rotation curves in any DM profiles starting from the NavarroFrenkWhite (NFW) to the pseudo-isothermal (ISO) profile. Upper limits on the coupling constant between the chameleon and DM are estimated from observational data of the late-type low surface brightness galaxies (LSB). It is in the order of β < 10 -3.

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Effects of chameleon scalar field on rotation curves of the galaxies

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