What drives the star formation in early-type galaxies at late epochs? - The case for minor mergers

Sugata Kaviraj; Richard Ellis; Sukyoung Yi; Joseph Silk; Kevin Schawinski; Eric Gawiser; Pieter Van Dokkum; C. Megan Urry

doi:10.1017/S1743921310002723

What drives the star formation in early-type galaxies at late epochs? - The case for minor mergers

Sugata Kaviraj, Richard Ellis, Sukyoung Yi, Joseph Silk, Kevin Schawinski, Eric Gawiser, Pieter Van Dokkum, C. Megan Urry

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

Abstract

Multi-wavelength photometry of early-type galaxies (ETGs) in the COSMOS survey is used to demonstrate that the low-level star formation activity in the ETG population at late epochs (z < 1) is likely to be driven by repeated minor mergers. While relaxed ETGs are almost entirely contained within the UV red sequence, their morphologically disturbed counterparts are largely found in the blue cloud, regardless of luminosity. Since empirically determined major-merger rates in the redshift range z < 1 are a few factors too low to account for the number fraction of disturbed ETGs, this suggests that minor mergers are the principal mechanism that drives star formation activity in ETGs at low and intermediate redshift.

Original language	English
Pages (from-to)	168-171
Number of pages	4
Journal	Proceedings of the International Astronomical Union
Volume	5
Issue number	S262
DOIs	https://doi.org/10.1017/S1743921310002723
Publication status	Published - 2009 Aug

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1017/S1743921310002723

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title = "What drives the star formation in early-type galaxies at late epochs? - The case for minor mergers",

abstract = "Multi-wavelength photometry of early-type galaxies (ETGs) in the COSMOS survey is used to demonstrate that the low-level star formation activity in the ETG population at late epochs (z < 1) is likely to be driven by repeated minor mergers. While relaxed ETGs are almost entirely contained within the UV red sequence, their morphologically disturbed counterparts are largely found in the blue cloud, regardless of luminosity. Since empirically determined major-merger rates in the redshift range z < 1 are a few factors too low to account for the number fraction of disturbed ETGs, this suggests that minor mergers are the principal mechanism that drives star formation activity in ETGs at low and intermediate redshift.",

author = "Sugata Kaviraj and Richard Ellis and Sukyoung Yi and Joseph Silk and Kevin Schawinski and Eric Gawiser and {Van Dokkum}, Pieter and {Megan Urry}, C.",

year = "2009",

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pages = "168--171",

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T1 - What drives the star formation in early-type galaxies at late epochs? - The case for minor mergers

AU - Kaviraj, Sugata

AU - Ellis, Richard

AU - Yi, Sukyoung

AU - Silk, Joseph

AU - Schawinski, Kevin

AU - Gawiser, Eric

AU - Van Dokkum, Pieter

AU - Megan Urry, C.

PY - 2009/8

Y1 - 2009/8

N2 - Multi-wavelength photometry of early-type galaxies (ETGs) in the COSMOS survey is used to demonstrate that the low-level star formation activity in the ETG population at late epochs (z < 1) is likely to be driven by repeated minor mergers. While relaxed ETGs are almost entirely contained within the UV red sequence, their morphologically disturbed counterparts are largely found in the blue cloud, regardless of luminosity. Since empirically determined major-merger rates in the redshift range z < 1 are a few factors too low to account for the number fraction of disturbed ETGs, this suggests that minor mergers are the principal mechanism that drives star formation activity in ETGs at low and intermediate redshift.

AB - Multi-wavelength photometry of early-type galaxies (ETGs) in the COSMOS survey is used to demonstrate that the low-level star formation activity in the ETG population at late epochs (z < 1) is likely to be driven by repeated minor mergers. While relaxed ETGs are almost entirely contained within the UV red sequence, their morphologically disturbed counterparts are largely found in the blue cloud, regardless of luminosity. Since empirically determined major-merger rates in the redshift range z < 1 are a few factors too low to account for the number fraction of disturbed ETGs, this suggests that minor mergers are the principal mechanism that drives star formation activity in ETGs at low and intermediate redshift.

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ER -

What drives the star formation in early-type galaxies at late epochs? - The case for minor mergers

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