EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3

Peter Kurczynski; Eric Gawiser; Viviana Acquaviva; Eric F. Bell; Avishai Dekel; Duilia F. De Mello; Henry C. Ferguson; Jonathan P. Gardner; Norman A. Grogin; Yicheng Guo; Philip F. Hopkins; Anton M. Koekemoer; David C. Koo; Seong Kook Lee; Bahram Mobasher; Joel R. Primack; Marc Rafelski; Emmaris Soto; Harry I. Teplitz

doi:10.3847/2041-8205/820/1/L1

EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3

Peter Kurczynski, Eric Gawiser, Viviana Acquaviva, Eric F. Bell, Avishai Dekel, Duilia F. De Mello, Henry C. Ferguson, Jonathan P. Gardner, Norman A. Grogin, Yicheng Guo, Philip F. Hopkins, Anton M. Koekemoer, David C. Koo, Seong Kook Lee, Bahram Mobasher, Joel R. Primack, Marc Rafelski, Emmaris Soto, Harry I. Teplitz

Racah Institute of Physics

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68 Scopus citations

Abstract

We present estimates of intrinsic scatter in the star formation rate (SFR)-stellar mass (M_∗) correlation in the redshift range and in the mass range M_ȯ. We utilize photometry in the Hubble Ultradeep Field (HUDF12) and Ultraviolet Ultra Deep Field (UVUDF) campaigns and CANDELS/GOODS-S and estimate SFR, M_∗ from broadband spectral energy distributions and the best-available redshifts. The maximum depth of the UDF photometry (F160W 29.9 AB, 5σ depth) probes the SFR-M_∗ correlation down to 10⁷M_ȯ, a factor of 10-100× lower in M_∗ than previous studies, and comparable to dwarf galaxies in the local universe. We find the slope of the SFR-M_∗ relationship to be near unity at all redshifts and the normalization to decrease with cosmic time. We find a moderate increase in intrinsic scatter with cosmic time from 0.2 to 0.4 dex across the epoch of peak cosmic star formation. None of our redshift bins show a statistically significant increase in intrinsic scatter at low mass. However, it remains possible that intrinsic scatter increases at low mass on timescales shorter than ∼100 Myr. Our results are consistent with a picture of gradual and self-similar assembly of galaxies across more than three orders of magnitude in stellar mass from as low as 10⁷M_ȯ.

Original language	English
Article number	L1
Journal	Astrophysical Journal Letters
Volume	820
Issue number	1
DOIs	https://doi.org/10.3847/2041-8205/820/1/L1
State	Published - 20 Mar 2016

Bibliographical note

Publisher Copyright:
© 2016. The American Astronomical Society. All rights reserved.

Keywords

galaxies: dwarf
galaxies: evolution
galaxies: formation
galaxies: high-redshift
galaxies: statistics

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10.3847/2041-8205/820/1/L1

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Kurczynski, P., Gawiser, E., Acquaviva, V., Bell, E. F., Dekel, A., De Mello, D. F., Ferguson, H. C., Gardner, J. P., Grogin, N. A., Guo, Y., Hopkins, P. F., Koekemoer, A. M., Koo, D. C., Lee, S. K., Mobasher, B., Primack, J. R., Rafelski, M., Soto, E., & Teplitz, H. I. (2016). EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3. Astrophysical Journal Letters, 820(1), Article L1. https://doi.org/10.3847/2041-8205/820/1/L1

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title = "EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3",

abstract = "We present estimates of intrinsic scatter in the star formation rate (SFR)-stellar mass (M∗) correlation in the redshift range and in the mass range Mȯ. We utilize photometry in the Hubble Ultradeep Field (HUDF12) and Ultraviolet Ultra Deep Field (UVUDF) campaigns and CANDELS/GOODS-S and estimate SFR, M∗ from broadband spectral energy distributions and the best-available redshifts. The maximum depth of the UDF photometry (F160W 29.9 AB, 5σ depth) probes the SFR-M∗ correlation down to 107Mȯ, a factor of 10-100× lower in M∗ than previous studies, and comparable to dwarf galaxies in the local universe. We find the slope of the SFR-M∗ relationship to be near unity at all redshifts and the normalization to decrease with cosmic time. We find a moderate increase in intrinsic scatter with cosmic time from 0.2 to 0.4 dex across the epoch of peak cosmic star formation. None of our redshift bins show a statistically significant increase in intrinsic scatter at low mass. However, it remains possible that intrinsic scatter increases at low mass on timescales shorter than ∼100 Myr. Our results are consistent with a picture of gradual and self-similar assembly of galaxies across more than three orders of magnitude in stellar mass from as low as 107Mȯ.",

keywords = "galaxies: dwarf, galaxies: evolution, galaxies: formation, galaxies: high-redshift, galaxies: statistics",

author = "Peter Kurczynski and Eric Gawiser and Viviana Acquaviva and Bell, {Eric F.} and Avishai Dekel and {De Mello}, {Duilia F.} and Ferguson, {Henry C.} and Gardner, {Jonathan P.} and Grogin, {Norman A.} and Yicheng Guo and Hopkins, {Philip F.} and Koekemoer, {Anton M.} and Koo, {David C.} and Lee, {Seong Kook} and Bahram Mobasher and Primack, {Joel R.} and Marc Rafelski and Emmaris Soto and Teplitz, {Harry I.}",

year = "2016",

month = mar,

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doi = "10.3847/2041-8205/820/1/L1",

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Kurczynski, P, Gawiser, E, Acquaviva, V, Bell, EF, Dekel, A, De Mello, DF, Ferguson, HC, Gardner, JP, Grogin, NA, Guo, Y, Hopkins, PF, Koekemoer, AM, Koo, DC, Lee, SK, Mobasher, B, Primack, JR, Rafelski, M, Soto, E & Teplitz, HI 2016, 'EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3', Astrophysical Journal Letters, vol. 820, no. 1, L1. https://doi.org/10.3847/2041-8205/820/1/L1

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T1 - EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3

AU - Kurczynski, Peter

AU - Gawiser, Eric

AU - Acquaviva, Viviana

AU - Bell, Eric F.

AU - Dekel, Avishai

AU - De Mello, Duilia F.

AU - Ferguson, Henry C.

AU - Gardner, Jonathan P.

AU - Grogin, Norman A.

AU - Guo, Yicheng

AU - Hopkins, Philip F.

AU - Koekemoer, Anton M.

AU - Koo, David C.

AU - Lee, Seong Kook

AU - Mobasher, Bahram

AU - Primack, Joel R.

AU - Rafelski, Marc

AU - Soto, Emmaris

AU - Teplitz, Harry I.

PY - 2016/3/20

Y1 - 2016/3/20

N2 - We present estimates of intrinsic scatter in the star formation rate (SFR)-stellar mass (M∗) correlation in the redshift range and in the mass range Mȯ. We utilize photometry in the Hubble Ultradeep Field (HUDF12) and Ultraviolet Ultra Deep Field (UVUDF) campaigns and CANDELS/GOODS-S and estimate SFR, M∗ from broadband spectral energy distributions and the best-available redshifts. The maximum depth of the UDF photometry (F160W 29.9 AB, 5σ depth) probes the SFR-M∗ correlation down to 107Mȯ, a factor of 10-100× lower in M∗ than previous studies, and comparable to dwarf galaxies in the local universe. We find the slope of the SFR-M∗ relationship to be near unity at all redshifts and the normalization to decrease with cosmic time. We find a moderate increase in intrinsic scatter with cosmic time from 0.2 to 0.4 dex across the epoch of peak cosmic star formation. None of our redshift bins show a statistically significant increase in intrinsic scatter at low mass. However, it remains possible that intrinsic scatter increases at low mass on timescales shorter than ∼100 Myr. Our results are consistent with a picture of gradual and self-similar assembly of galaxies across more than three orders of magnitude in stellar mass from as low as 107Mȯ.

AB - We present estimates of intrinsic scatter in the star formation rate (SFR)-stellar mass (M∗) correlation in the redshift range and in the mass range Mȯ. We utilize photometry in the Hubble Ultradeep Field (HUDF12) and Ultraviolet Ultra Deep Field (UVUDF) campaigns and CANDELS/GOODS-S and estimate SFR, M∗ from broadband spectral energy distributions and the best-available redshifts. The maximum depth of the UDF photometry (F160W 29.9 AB, 5σ depth) probes the SFR-M∗ correlation down to 107Mȯ, a factor of 10-100× lower in M∗ than previous studies, and comparable to dwarf galaxies in the local universe. We find the slope of the SFR-M∗ relationship to be near unity at all redshifts and the normalization to decrease with cosmic time. We find a moderate increase in intrinsic scatter with cosmic time from 0.2 to 0.4 dex across the epoch of peak cosmic star formation. None of our redshift bins show a statistically significant increase in intrinsic scatter at low mass. However, it remains possible that intrinsic scatter increases at low mass on timescales shorter than ∼100 Myr. Our results are consistent with a picture of gradual and self-similar assembly of galaxies across more than three orders of magnitude in stellar mass from as low as 107Mȯ.

KW - galaxies: dwarf

KW - galaxies: evolution

KW - galaxies: formation

KW - galaxies: high-redshift

KW - galaxies: statistics

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ER -

EVOLUTION of INTRINSIC SCATTER in the SFR-STELLAR MASS CORRELATION at 0.5 < z < 3

Abstract

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Keywords

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