Galaxy Formation and Evolution

Research Projects

Studying the morphological transformation of galaxies

Morphological transformation of galaxies

Galaxies are composed of multiple components, such as bulges, discs, bars and spiral arms amongst others. As the galaxy transforms over time, such as through interactions, mergers or simply old age, these components are also affected. This project aims to use a unique code to model the light profiles of galaxy bulges and discs in Integral Field Spectroscopic data in order to cleanly extract the spectra of those components with minimal contamination from the light of other structures present. From these spectra we can study their stellar populations, star formation histories, and mass assembly histories as a function of time, thus building up a picture of not just how the galaxy has evolved and transformed into what we see today, but also what has happened to its components.

People

Dr. Evelyn Johnston

ORCHIDS: ORigin of the [C II] Halos In Distant Systems

One of the most interesting findings of recent ALMA [CII]158um galaxy surveys (e.g. ALPINE, REBELS, CRISTAL) has been the clear presence of extended [CII] line emission among massive star-forming galaxies at z=4-6, beyond the rest-frame UV and dust continuum emission and extending out to ~10-kpc. Despite being key to understanding the interplay between star formation activity and feedback processes in the circumgalactic medium (CGM), the origin of such [CII] “halos’’ remains enigmatic. We have started a comprehensive program, titled “Origin of the [CII] Halos in Distant Systems” (ORCHIDS), aiming to unravel the nature of these extended [CII] features. Leveraging the capabilities of JWST/NIRSpec and Keck/KCRM IFU observations, through our awarded JWST GO3 program (ID: 5974; PI: M. Aravena, co-PI: J. González-López), we will scrutinize a carefully selected sample of eight massive star-forming galaxies at redshifts z~5-6. Our targets have been recently confirmed to exhibit [CII] halos through high-resolution ALMA imaging from the CRISTAL survey. Our observations are designed to rigorously test the most plausible scenarios predicting the nature of [CII] halos. These observations will yield a full characterization of the baryonic cycle in these systems, yielding a unique probe of (i) the kinematics and distribution of the star formation and ionized gas, enabling us to discern outflows, multiple component systems and extended dense atomic and ionized gas in the CGM as the origin for [CII] halos (JWST/NIRSpec + Keck/KCRM); (ii) test associations with Lyman-alpha halos/blobs; (iii) the galaxies’ gas excitation and shocks (JWST/NIRSpec); and (iv) provide resolved measurements of various star-forming tracers.

People

Dr. Manuel Aravena

The ALMA CONDOR large program

The ALMA CONDOR Large Program is a high-resolution survey targeting a sample of eight star-forming disk galaxies at redshifts z∼1–3, the peak epoch of cosmic star formation. Using ALMA’s multi-configuration observations of CO emission lines, CONDOR aims to spatially resolve the distribution of cold molecular gas and start, and their kinematics, on kiloparsec scales at unprecedented sensitivity. The program is designed to investigate the internal dynamics, rotation curves, disk stability, and ISM structure of high-redshift galaxies, providing key constraints on galaxy evolution models during the formative period of disk assembly. Our team in Chile (M. Aravena, V Villanueva) is devoted to measuring the morphologies of the dust emission.

People

Dr. Manuel Aravena

The ALMA CHAMPS large program

The COSMOS High-z ALMA-MIRI Population Survey (CHAMPS; PI: A. Faisst, co-PI: M. Aravena et al.) is an ALMA large program in Cycle 11 that will obtain a 0.18 deg2 blank-field survey at 1.1mm in the COSMOS field, covering 3x the area of existing ALMA surveys, to push our understanding of the dusty Universe. ALMA CHAMPS complements deep, high-resolution MIRI and NIRCam observations from two JWST Cycle 1 programs with essential sub-mm observations. This will enable us to construct UV-FIR multiwavelength SEDs of ~30,000 MIRI-detected sources, including ~1200 bright, dusty sources directly detected with ALMA out to z~6, and additional ~120,000 sources with NIRCam-only detections from stacking. With this large area, we will find dusty high-z galaxies and provide limits to sub-mm properties of fainter sources via stacking. This program provides a unique opportunity to combine cutting-edge multiwavelength data to robustly measure the amount of obscured star formation across cosmic time, and the evolution of the dust and gas properties of galaxies and AGN.

At IEA- UDP, we are focused on the study of the ~100s CO line emitters expected in CHAMPS, their characterization, and measurements of the CO luminosity function and evolution of the cosmic molecular gas density.

People

Dr. Manuel Aravena

The ALMA CRISTAL large program

The ALMA CRISTAL large program (PI: R. Herrera-Camus; co-PIs: M. Aravena, J. González-López et al.) is designed to provide unique constraints on the morphologies, kinematics, existence of outflows, and ISM properties of galaxies at z=4-6. Our group is focused on the study of the interplay between the ISM and CGM of galaxies by characterizing the full baryonic cycle through observations of Ly-alpha, [CII], H-alpha, etc. with ALMA, VLT/MUSE, Keck/KCWI and JWST.

People

Dr. Manuel Aravena
Dr. Roberto Assef

Wide-area surveys of dusty star-forming galaxies at high redshift

The main objectives of our DSFG surveys will be to identify and characterize these galaxies (measuring luminosity functions, redshift distributions, correlation functions, etc), and conduct searches for z>5 sources and IR-bright protocluster systems using current and upcoming (sub)millimeter surveys of the southern sky, from the SPT 3G collaboration, the CCAT observatory surveys and the CMB-S4 project.

People

Dr. Manuel Aravena

Characterization of IR bright protoclusters at z > 4

We are characterizing the massive and IR bright protoclusters discovered by the SPT SMG survey of the southern sky. We are studying the cold ISM through deep ALMA band-1 observations of CO(2-1) in the iconic SPT2349-56 protocluster at z=4.3, and the environment and CGM around three other protoclusters at z>4 through VLT/MUSE observations of the rest-frame UV Ly-alpha line. The goals are to search for CO and Lyman-alpha emitters, and for Lyman-alpha extended emission (Ly-alpha blobs) that could be connected to the star forming nature of these systems (see Miller et al. 2018, Hill et al. 2020, Apostolovski et al. 2023).

People

Dr. Manuel Aravena

Galaxy Formation and Evolution

Research Projects

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