Physical Properties of Massive, Star-Forming Galaxies When the Universe Was Only Two Billion Years Old

Fu, Nicole Christina

04 May 2011

Due to the finite speed of light and a vast, expanding universe, telescopes are just now receiving the light emitted by galaxies as they were forming in the very early universe. The light from these galaxies has been redshifted (stretched to longer, redder wavelengths) as a result of its journey through expanding space. Using sophisticated techniques and exceptional multi-wavelength optical and infrared data, we isolate a population of 378 galaxies in the process of formation when the Universe was only two billion years old. By matching the distinctive properties of the light spectra of these galaxies to models, the redshift, age, dust content, star formation rate and total stellar mass of each galaxy are determined. Comparing our results to similar surveys of galaxy populations at other redshifts, a picture emerges of the growth and evolution of massive, star-forming galaxies over the course of billions of years.

Lyman-break galaxies

LBG

galaxy formation and evolution

high redshift

colour-colour plots

galaxy model fitting

optical photometry

infrared photometry

photometric redshift technique

cosmology

early universe

observational astrophysics

astronomy

galaxy spectra

Lyman-break technique

concentric aperture photometry

star-forming galaxies

Lyman-alpha forest

dust extinction

synthetic galaxies

Lyman-break galaxy

Physical Properties of Massive, Star-Forming Galaxies When the Universe Was Only Two Billion Years Old

Fu, Nicole Christina

04 May 2011

Due to the finite speed of light and a vast, expanding universe, telescopes are just now receiving the light emitted by galaxies as they were forming in the very early universe. The light from these galaxies has been redshifted (stretched to longer, redder wavelengths) as a result of its journey through expanding space. Using sophisticated techniques and exceptional multi-wavelength optical and infrared data, we isolate a population of 378 galaxies in the process of formation when the Universe was only two billion years old. By matching the distinctive properties of the light spectra of these galaxies to models, the redshift, age, dust content, star formation rate and total stellar mass of each galaxy are determined. Comparing our results to similar surveys of galaxy populations at other redshifts, a picture emerges of the growth and evolution of massive, star-forming galaxies over the course of billions of years.

Lyman-break galaxies

LBG

galaxy formation and evolution

high redshift

colour-colour plots

galaxy model fitting

optical photometry

infrared photometry

photometric redshift technique

cosmology

early universe

observational astrophysics

astronomy

galaxy spectra

Lyman-break technique

concentric aperture photometry

star-forming galaxies

Lyman-alpha forest

dust extinction

synthetic galaxies

Lyman-break galaxy

Physical Properties of Massive, Star-Forming Galaxies When the Universe Was Only Two Billion Years Old

Fu, Nicole Christina

04 May 2011

Due to the finite speed of light and a vast, expanding universe, telescopes are just now receiving the light emitted by galaxies as they were forming in the very early universe. The light from these galaxies has been redshifted (stretched to longer, redder wavelengths) as a result of its journey through expanding space. Using sophisticated techniques and exceptional multi-wavelength optical and infrared data, we isolate a population of 378 galaxies in the process of formation when the Universe was only two billion years old. By matching the distinctive properties of the light spectra of these galaxies to models, the redshift, age, dust content, star formation rate and total stellar mass of each galaxy are determined. Comparing our results to similar surveys of galaxy populations at other redshifts, a picture emerges of the growth and evolution of massive, star-forming galaxies over the course of billions of years.

Lyman-break galaxies

LBG

galaxy formation and evolution

high redshift

colour-colour plots

galaxy model fitting

optical photometry

infrared photometry

photometric redshift technique

cosmology

early universe

observational astrophysics

astronomy

galaxy spectra

Lyman-break technique

concentric aperture photometry

star-forming galaxies

Lyman-alpha forest

dust extinction

synthetic galaxies

Lyman-break galaxy

Physical Properties of Massive, Star-Forming Galaxies When the Universe Was Only Two Billion Years Old

Fu, Nicole Christina

January 2011

Due to the finite speed of light and a vast, expanding universe, telescopes are just now receiving the light emitted by galaxies as they were forming in the very early universe. The light from these galaxies has been redshifted (stretched to longer, redder wavelengths) as a result of its journey through expanding space. Using sophisticated techniques and exceptional multi-wavelength optical and infrared data, we isolate a population of 378 galaxies in the process of formation when the Universe was only two billion years old. By matching the distinctive properties of the light spectra of these galaxies to models, the redshift, age, dust content, star formation rate and total stellar mass of each galaxy are determined. Comparing our results to similar surveys of galaxy populations at other redshifts, a picture emerges of the growth and evolution of massive, star-forming galaxies over the course of billions of years.

Lyman-break galaxies

LBG

galaxy formation and evolution

high redshift

colour-colour plots

galaxy model fitting

optical photometry

infrared photometry

photometric redshift technique

cosmology

early universe

observational astrophysics

astronomy

galaxy spectra

Lyman-break technique

concentric aperture photometry

star-forming galaxies

Lyman-alpha forest

dust extinction

synthetic galaxies

Lyman-break galaxy