Your search keyword '"Starkenburg, Tjitske K."' showing total 39 results

1. JWST constraints on the UV luminosity density at cosmic dawn: implications for 21-cm cosmology

Author

Hassan, Sultan, Lovell, Christopher C., Madau, Piero, Huertas-Company, Marc, Somerville, Rachel S., Burkhart, Blakesley, Dixon, Keri L., Feldmann, Robert, Starkenburg, Tjitske K., Wu, John F., Jespersen, Christian Kragh, Gelfand, Joseph D., and Bera, Ankita

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

An unprecedented array of new observational capabilities are starting to yield key constraints on models of the epoch of first light in the Universe. In this Letter we discuss the implications of the UV radiation background at cosmic dawn inferred by recent JWST observations for radio experiments aimed at detecting the redshifted 21-cm hyperfine transition of diffuse neutral hydrogen. Under the basic assumption that the 21-cm signal is activated by the Ly$\alpha$ photon field produced by metal-poor stellar systems, we show that a detection at the low frequencies of the EDGES and SARAS3 experiments may be expected from a simple extrapolation of the declining UV luminosity density inferred at $z\lesssim 14$ from JWST early galaxy data. Accounting for an early radiation excess above the CMB suggests a shallower or flat evolution to simultaneously reproduce low and high-$z$ current UV luminosity density constraints, which cannot be entirely ruled out, given the large uncertainties from cosmic variance and the faint-end slope of the galaxy luminosity function at cosmic dawn. Our findings raise the intriguing possibility that a high star formation efficiency at early times may trigger the onset of intense Ly$\alpha$ emission at redshift $z\lesssim 20$ and produce a cosmic 21-cm absorption signal 200 Myr after the Big Bang., Comment: 8 pages, 3 figures, accepted to ApJL

Published

2023

2. VINTERGATAN-GM: The cosmological imprints of early mergers on Milky-Way-mass galaxies

Author

Rey, Martin P., Agertz, Oscar, Starkenburg, Tjitske K., Renaud, Florent, Joshi, Gandhali D., Pontzen, Andrew, Martin, Nicolas F., Feuillet, Diane K., and Read, Justin I.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a new suite of cosmological zoom-in hydrodynamical ($\approx 20\, \mathrm{pc}$ spatial resolution) simulations of Milky-Way mass galaxies to study how a varying mass ratio for a Gaia-Sausage-Enceladus (GSE) progenitor impacts the $z=0$ chemodynamics of halo stars. Using the genetic modification approach, we create five cosmological histories for a Milky-Way-mass dark matter halo ($M_{200} \approx 10^{12} \, M_\mathrm{\odot}$), incrementally increasing the stellar mass ratio of a $z\approx2$ merger from 1:25 to 1:2, while fixing the galaxy's final dynamical, stellar mass and large-scale environment. We find markedly different morphologies at $z=0$ following this change in early history, with a growing merger resulting in increasingly compact and bulge-dominated galaxies. Despite this structural diversity, all galaxies show a radially-biased population of inner halo stars like the Milky-Way's GSE which, surprisingly, has a similar magnitude, age, $\rm [Fe/H]$ and $\rm [\alpha/Fe]$ distribution whether the $z\approx2$ merger is more minor or major. This arises because a smaller ex-situ population at $z\approx2$ is compensated by a larger population formed in an earlier merger-driven starburst whose contribution to the GES can grow dynamically over time, with both populations strongly overlapping in the $\rm [Fe/H]-\rm [\alpha/Fe]$ plane. Our study demonstrates that multiple high-redshift histories can lead to similar $z=0$ chemodynamical features in the halo, highlighting the need for additional constraints to distinguish them, and the importance of considering the full spectrum of progenitors when interpreting $z=0$ data to reconstruct our Galaxy's past., Comment: Matching accepted version after minor changes

Published

2022

3. walter: A Tool for Predicting Resolved Stellar Population Observations with Applications to the Roman Space Telescope

Author

Lancaster, Lachlan, Pearson, Sarah, Williams, Benjamin F., Johnston, Kathryn V., Starkenburg, Tjitske K., Kado-Fong, Erin, Seth, Anil C., and Bell, Eric F.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Studies of resolved stellar populations in the Milky Way and nearby galaxies reveal an amazingly detailed and clear picture of galaxy evolution. Within the Local Group, the ability to probe the stellar populations of small and large galaxies opens up the possibility of exploring key questions such as the nature of dark matter, the detailed formation history of different galaxy components, and the role of accretion in galactic formation. Upcoming wide-field surveys promise to extend this ability to all galaxies within 10~Mpc, drastically increasing our capability to decipher galaxy evolution and enabling statistical studies of galaxies' stellar populations. To facilitate the optimum use of these upcoming capabilities we develop a simple formalism to predict the density of resolved stars for an observation of a stellar population at fixed surface brightness and population parameters. We provide an interface to calculate all quantities of interest to this formalism via a public release of the code: \texttt{walter}. This code enables calculation of (i) the expected number density of detected stars, (ii) the exposure time needed to reach certain population features, such as the horizontal branch, and (iii) an estimate of the crowding limit, among other features. These calculations will be very useful for planning surveys with NASA's upcoming Nancy Grace Roman Space Telescope (Roman, formerly WFIRST), which we use for example calculations throughout this work., Comment: 16 pages, 6 figures, submitted to AJ. Comments welcome

Published

2022

4. The Hough Stream Spotter: A New Method for Detecting Linear Structure in Resolved Stars and Application to the Stellar Halo of M31

Author

Pearson, Sarah, Clark, Susan E., Demirjian, Alexis J., Johnston, Kathryn V., Ness, Melissa K., Starkenburg, Tjitske K., Williams, Benjamin F., and Ibata, Rodrigo A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Stellar streams from globular clusters (GCs) offer constraints on the nature of dark matter and have been used to explore the dark matter halo structure and substructure of our Galaxy. Detection of GC streams in other galaxies would broaden this endeavor to a cosmological context, yet no such streams have been detected to date. To enable such exploration, we develop the Hough Stream Spotter (HSS), and apply it to the Pan-Andromeda Archaeological Survey (PAndAS) photometric data of resolved stars in M31's stellar halo. We first demonstrate that our code can re-discover known dwarf streams in M31. We then use the HSS to blindly identify 27 linear GC stream-like structures in the PAndAS data. For each HSS GC stream candidate, we investigate the morphologies of the streams and the colors and magnitudes of all stars in the candidate streams. We find that the five most significant detections show a stronger signal along the red giant branch in color-magnitude diagrams (CMDs) than spurious non-stream detections. Lastly, we demonstrate that the HSS will easily detect globular cluster streams in future Nancy Grace Roman Space Telescope data of nearby galaxies. This has the potential to open up a new discovery space for GC stream studies, GC stream gap searches, and for GC stream-based constraints on the nature of dark matter., Comment: Accepted to ApJ, 34 pages, 18 figures

Published

2021

5. IQ Collaboratory III: The Empirical Dust Attenuation Framework -- Taking Hydrodynamical Simulations with a Grain of Dust

Author

Hahn, ChangHoon, Starkenburg, Tjitske K., Anglés-Alcázar, Daniel, Choi, Ena, Davé, Romeel, Dickey, Claire, Iyer, Kartheik G., Maller, Ariyeh H., Somerville, Rachel S., Tinker, Jeremy L., and Yung, L. Y. Aaron

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present the Empirical Dust Attenuation (EDA) framework -- a flexible prescription for assigning realistic dust attenuation to simulated galaxies based on their physical properties. We use the EDA to forward model synthetic observations for three state-of-the-art large-scale cosmological hydrodynamical simulations: SIMBA, IllustrisTNG, and EAGLE. We then compare the optical and UV color-magnitude relations, $(g-r) - M_r$ and $(FUV-NUV)-M_r$, of the simulations to a $M_r < -20$ and UV complete SDSS galaxy sample using likelihood-free inference. Without dust, none of the simulations match observations, as expected. With the EDA, however, we can reproduce the observed color-magnitude with all three simulations. Furthermore, the attenuation curves predicted by our dust prescription are in good agreement with the observed attenuation-slope relations and attenuation curves of star-forming galaxies. However, the EDA does not predict star-forming galaxies with low $A_V$ since simulated star-forming galaxies are intrinsically much brighter than observations. Additionally, the EDA provides, for the first time, predictions on the attenuation curves of quiescent galaxies, which are challenging to measure observationally. Simulated quiescent galaxies require shallower attenuation curves with lower amplitude than star-forming galaxies. The EDA, combined with forward modeling, provides an effective approach for shedding light on dust in galaxies and probing hydrodynamical simulations. This work also illustrates a major limitation in comparing galaxy formation models: by adjusting dust attenuation, simulations that predict significantly different galaxy populations can reproduce the same UV and optical observations., Comment: 26 pages, 15 figures

Published

2021

6. How cosmological merger histories shape the diversity of stellar haloes

Author

Rey, Martin P. and Starkenburg, Tjitske K.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We introduce and apply a new approach to probe the response of galactic stellar haloes to the interplay between cosmological merger histories and galaxy formation physics. We perform dark matter-only, zoomed simulations of two Milky Way-mass hosts and make targeted, controlled changes to their cosmological histories using the genetic modification technique. Populating each history's stellar halo with a semi-empirical, particle tagging approach then enables a controlled study, with all instances converging to the same large-scale structure, dynamical and stellar mass at $z=0$ as their reference. These related merger scenarios alone generate an extended spread in stellar halo mass fractions (1.5 dex) comparable to the observed population, with the largest scatter achieved by growing late ($z\leq1$) major mergers that spread out existing stars to create massive, in-situ dominated stellar haloes. Increasing a last major merger at $z\sim2$ brings more accreted stars into the inner regions, resulting in smaller scatter in the outskirts which are predominantly built by subsequent minor events. Exploiting the flexibility of our semi-empirical approach, we show that the diversity of stellar halo masses across scenarios is reduced by allowing shallower slopes in the stellar mass--halo mass relation for dwarf galaxies, while it remains conserved when central stars are born with hotter kinematics across cosmic time. The merger-dependent diversity of stellar haloes thus responds distinctly to assumptions in modelling the central and dwarf galaxies respectively, opening exciting prospects to constrain star formation and feedback at different galactic mass-scales with the coming generation of deep, photometric observatories., Comment: Matching accepted version in MNRAS, results unchanged, additional robustness tests in Appendices

Published

2021

7. IQ Collaboratory II: The Quiescent Fraction of Isolated, Low Mass Galaxies Across Simulations and Observations

Author

Dickey, Claire M, Starkenburg, Tjitske K, Geha, Marla, Hahn, ChangHoon, Anglés-Alcázar, Daniel, Choi, Ena, Davé, Romeel, Genel, Shy, Iyer, Kartheik G, Maller, Ariyeh H, Mandelker, Nir, Somerville, Rachel S, and Yung, L Y Aaron

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We compare three major large-scale hydrodynamical galaxy simulations (EAGLE, Illustris-TNG, and SIMBA) by forward modeling simulated galaxies into observational space and computing the fraction of isolated and quiescent low mass galaxies as a function of stellar mass. Using SDSS as our observational template, we create mock surveys and synthetic spectroscopic and photometric observations of each simulation, adding realistic noise and observational limits. All three simulations show a decrease in the number of quiescent, isolated galaxies in the mass range $\mathrm{M}_* = 10^{9-10} \ \mathrm{M}_\odot$, in broad agreement with observations. However, even after accounting for observational and selection biases, none of the simulations reproduce the observed absence of quiescent field galaxies below $\mathrm{M}_*=10^{9} \ \mathrm{M}_\odot$. We find that the low mass quiescent populations selected via synthetic observations have consistent quenching timescales, despite apparent variation in the late time star formation histories. The effect of increased numerical resolution is not uniform across simulations and cannot fully mitigate the differences between the simulations and the observations. The framework presented here demonstrates a path towards more robust and accurate comparisons between theoretical simulations and galaxy survey observations, while the quenching threshold serves as a sensitive probe of feedback implementations., Comment: 19 pages, 8 figures. Figure 4 presents the main result. Code used in this work may be accessed at github.com/IQcollaboratory/orchard. Submitted to ApJ

Published

2020

8. The breakBRD Breakdown: Using IllustrisTNG to Track the Quenching of an Observationally-Motivated Sample of Centrally Star-Forming Galaxies

Author

Kopenhafer, Claire, Starkenburg, Tjitske K., Tonnesen, Stephanie, and Tuttle, Sarah

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The observed breakBRD ("break bulges in red disks") galaxies are a nearby sample of face-on disk galaxies with particularly centrally concentrated star formation: they have red disks but recent star formation in their centers as measured by the D$_n$4000 spectral index (Tuttle & Tonnesen 2020). In this paper, we search for breakBRD analogues in the IllustrisTNG simulation and describe their history and future. We find that a small fraction (${\sim}4\%$ at $z=0$; ${\sim}1\%$ at $z=0.5$) of galaxies fulfill the breakBRD criteria, in agreement with observations. In comparison with the mass-weighted parent IllustrisTNG sample, these galaxies tend to consist of a higher fraction of satellite and splashback galaxies. However, the central, non-splashback breakBRD galaxies show similar environments, black hole masses, and merger rates, indicating that there is not a single formation trigger for inner star formation and outer quenching. We determine that breakBRD analogue galaxies as a whole are in the process of quenching. The breakBRD state - with its highly centrally concentrated star formation - is uncommon in the history of either currently quiescent or star-forming galaxies; however, approximately 10% of $10^{10} < M_\ast/M_{\odot} < 10^{11}$ quiescent galaxies at $z=0$ have experienced SFR concentrations comparable to those of the breakBRDs in their past. Additionally, the breakBRD state is short-lived, lasting a few hundred Myr up to ${\sim}2$ Gyr. The observed breakBRD galaxies may therefore be a unique sample of outside-in quenching galaxies., Comment: Accepted to ApJ

Published

2020

9. The time-scales probed by star formation rate indicators for realistic, bursty star formation histories from the FIRE simulations

Author

Velázquez, José A. Flores, Gurvich, Alexander B., Faucher-Giguère, Claude-André, Bullock, James S., Starkenburg, Tjitske K., Moreno, Jorge, Lazar, Alexandres, Mercado, Francisco J., Stern, Jonathan, Sparre, Martin, Hayward, Christopher C., Wetzel, Andrew, and El-Badry, Kareem

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Understanding the rate at which stars form is central to studies of galaxy formation. Observationally, the star formation rates (SFRs) of galaxies are measured using the luminosity in different frequency bands, often under the assumption of a time-steady SFR in the recent past. We use star formation histories (SFHs) extracted from cosmological simulations of star-forming galaxies from the FIRE project to analyze the time-scales to which the H${\alpha}$ and far-ultraviolet (FUV) continuum SFR indicators are sensitive. In these simulations, the SFRs are highly time variable for all galaxies at high redshift, and continue to be bursty to z=0 in dwarf galaxies. When FIRE SFHs are partitioned into their bursty and time-steady phases, the best-fitting FUV time-scale fluctuates from its ~10 Myr value when the SFR is time-steady to >~100 Myr immediately following particularly extreme bursts of star formation during the bursty phase. On the other hand, the best-fitting averaging time-scale for H${\alpha}$ is generally insensitive to the SFR variability in the FIRE simulations and remains ~5 Myr at all times. These time-scales are shorter than the 100 Myr and 10 Myr time-scales sometimes assumed in the literature for FUV and H${\alpha}$, respectively, because while the FUV emission persists for stellar populations older than 100 Myr, the time-dependent luminosities are strongly dominated by younger stars. Our results confirm that the ratio of SFRs inferred using H${\alpha}$ vs. FUV can be used to probe the burstiness of star formation in galaxies., Comment: 14 pages, 10 figures, accepted to MNRAS

Published

2020

10. The Diversity and Variability of Star Formation Histories in Models of Galaxy Evolution

Author

Iyer, Kartheik G., Tacchella, Sandro, Genel, Shy, Hayward, Christopher C., Hernquist, Lars, Brooks, Alyson M., Caplar, Neven, Davé, Romeel, Diemer, Benedikt, Forbes, John C., Gawiser, Eric, Somerville, Rachel S., and Starkenburg, Tjitske K.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Understanding the variability of galaxy star formation histories (SFHs) across a range of timescales provides insight into the underlying physical processes that regulate star formation within galaxies. We compile the SFHs of galaxies at $z=0$ from an extensive set of models, ranging from cosmological hydrodynamical simulations (Illustris, IllustrisTNG, Mufasa, Simba, EAGLE), zoom simulations (FIRE-2, g14, and Marvel/Justice League), semi-analytic models (Santa Cruz SAM) and empirical models (UniverseMachine), and quantify the variability of these SFHs on different timescales using the power spectral density (PSD) formalism. We find that the PSDs are well described by broken power-laws, and variability on long timescales ($\gtrsim1$ Gyr) accounts for most of the power in galaxy SFHs. Most hydrodynamical models show increased variability on shorter timescales ($\lesssim300$ Myr) with decreasing stellar mass. Quenching can induce $\sim0.4-1$ dex of additional power on timescales $>1$ Gyr. The dark matter accretion histories of galaxies have remarkably self-similar PSDs and are coherent with the in-situ star formation on timescales $>3$ Gyr. There is considerable diversity among the different models in their (i) power due to SFR variability at a given timescale, (ii) amount of correlation with adjacent timescales (PSD slope), (iii) evolution of median PSDs with stellar mass, and (iv) presence and locations of breaks in the PSDs. The PSD framework is a useful space to study the SFHs of galaxies since model predictions vary widely. Observational constraints in this space will help constrain the relative strengths of the physical processes responsible for this variability., Comment: 31 pages, 17 figures (+ appendix). Resubmitted to MNRAS after responding to referee's comments. Comments are welcome!

Published

2020

11. The time-scales probed by star formation rate indicators for realistic, bursty star formation histories from the FIRE simulations

Author

Velázquez, José A Flores, Gurvich, Alexander B, Faucher-Giguère, Claude-André, Bullock, James S, Starkenburg, Tjitske K, Moreno, Jorge, Lazar, Alexandres, Mercado, Francisco J, Stern, Jonathan, Sparre, Martin, Hayward, Christopher C, Wetzel, Andrew, and El-Badry, Kareem

Subjects

Astronomical Sciences, Physical Sciences, galaxies: high-redshift, galaxies: star formation, ultraviolet: galaxies, astro-ph.GA, Astronomical and Space Sciences, Astronomy & Astrophysics, Astronomical sciences, Particle and high energy physics, Space sciences

Abstract

Understanding the rate at which stars form is central to studies of galaxy formation. Observationally, the star formation rates (SFRs) of galaxies are measured using the luminosity in different frequency bands, often under the assumption of a time-steady SFR in the recent past. We use star formation histories (SFHs) extracted from cosmological simulations of star-forming galaxies from the FIRE project to analyse the time-scales to which the H α and far-ultraviolet (FUV) continuum SFR indicators are sensitive. In these simulations, the SFRs are highly time variable for all galaxies at high redshift, and continue to be bursty to z = 0 in dwarf galaxies. When FIRE SFHs are partitioned into their bursty and time-steady phases, the best-fitting FUV time-scale fluctuates from its ∼10 Myr value when the SFR is time-steady to ≥100 Myr immediately following particularly extreme bursts of star formation during the bursty phase. On the other hand, the best-fitting averaging time-scale for H α is generally insensitive to the SFR variability in the FIRE simulations and remains ∼5 Myr at all times. These time-scales are shorter than the 100 and 10 Myr time-scales sometimes assumed in the literature for FUV and H α, respectively, because while the FUV emission persists for stellar populations older than 100 Myr, the time-dependent luminosities are strongly dominated by younger stars. Our results confirm that the ratio of SFRs inferred using H α versus FUV can be used to probe the burstiness of star formation in galaxies.

Published

2021

12. Decoupling the rotation of stars and gas -- II: the link between black hole activity and MaNGA kinematics in TNG

Author

Duckworth, Christopher, Starkenburg, Tjitske K., Genel, Shy, Davis, Timothy, Habouzit, Melanie, Kraljic, Katarina, and Tojeiro, Rita

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We study the relationship between supermassive black hole (BH) feedback, BH luminosity and the kinematics of stars and gas for galaxies in IllustrisTNG. We use a sample of galaxies with mock MaNGA observations to identify kinematic misalignment at $z=0$ (difference in rotation of stars and gas), for which we follow the evolutionary history of BH activity and gas properties over the last 8 Gyrs. Misaligned low mass galaxies typically have boosted BH luminosity, BH growth and have had more energy injected into the gas over the last 8 Gyr in comparison to aligned galaxies. These properties likely lead to outflows and gas loss, in agreement with active low mass galaxies in observations. We show that splitting on BH luminosity at $z=0$ produces statistically consistent distributions of kinematic misalignment at $z=0$, however, splitting on the maximum BH luminosity over the last 8 Gyrs does not. While instantaneous correlation at $z=0$ is difficult due to misalignment persisting on longer timescales, the relationship between BH activity and misalignment is clear. High mass quenched galaxies with misalignment typically have similar BH luminosities, show no overall gas loss, and have typically lower gas phase metallicity over the last 8 Gyrs in comparison to those aligned; suggesting external origin., Comment: 5 pages, 3 Figures, Submitted to MNRAS letters. For first paper in series, see arXiv:1910.10744

Published

2019

13. Multiple retrograde substructures in the Galactic halo: A shattered view of Galactic history

Author

Koppelman, Helmer H., Helmi, Amina, Massari, Davide, Price-Whelan, Adrian M., and Starkenburg, Tjitske K.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Aims. Several kinematic and chemical substructures have been recently found amongst Milky Way halo stars with retrograde motions. It is currently unclear how these various structures are related to each other. This Letter aims to shed light on this issue. Methods. We explore the retrograde halo with an augmented version of the Gaia DR2 RVS sample, extended with data from three large spectroscopic surveys, namely RAVE, APOGEE and LAMOST. In this dataset, we identify several structures using the HDBSCAN clustering algorithm. We discuss their properties and possible links using all the available chemical and dynamical information. Results. In concordance with previous work, we find that stars with [Fe/H] $<-1$ have more retrograde motions than those with [Fe/H] $>-1$. The retrograde halo contains a mixture of debris from objects like Gaia-Enceladus, Sequoia, and even the chemically defined thick-disc. We find that the Sequoia has a smaller range in orbital energies than previously suggested and is confined to high-energy. Sequoia could be a small galaxy in itself, but since it overlaps both in integrals-of-motion space and chemical abundance space with the less bound debris of Gaia-Enceladus, its nature cannot be fully settled yet. In the low-energy part of the halo we find evidence for at least one more distinct structure: Thamnos. Stars in Thamnos are on low inclination, mildly eccentric retrograde orbits, moving at $v_{\phi}\approx-150$ km/s, and are chemically distinct from the other structures. Conclusions. Even with the excellent Gaia DR2 data it remains challenging to piece together all the fragments found in the retrograde halo. At this point, we are very much in need of large datasets with high-quality high-resolution spectra and tailored high-resolution hydrodynamical simulations of galaxy mergers., Comment: 6 pages, 5 figures, submitted to A&A

Published

2019

14. Detecting Thin Stellar Streams in External Galaxies: Resolved Stars & Integrated Light

Author

Pearson, Sarah, Starkenburg, Tjitske K., Johnston, Kathryn V., Williams, Benjamin F., and Ibata, Rodrigo A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The morphology of thin stellar streams can be used to test the nature of dark matter. It is therefore crucial to extend searches for globular cluster streams to other galaxies than the Milky Way. In this paper, we investigate the current and future prospects of detecting globular cluster streams in external galaxies in resolved stars (e.g. with WFIRST) and using integrated light (e.g. with HSC, LSST and Euclid). In particular, we inject mock-streams to data from the PAndAS M31 survey, and produce simulated M31 backgrounds mimicking what WFIRST will observe in M31. Additionally, we estimate the distance limit to which globular cluster streams will be observable. Our results demonstrate that for a 1 hour (1000 sec.) exposure, using conservative estimates, WFIRST should detect globular cluster streams in resolved stars in galaxies out to distances of ~3.5 Mpc (~2 Mpc). This volume contains 199 (122) galaxies of which >90% are dwarfs. With integrated light, thin streams can be resolved out to ~100 Mpc with HSC and LSST and to ~600 Mpc with WFIRST and Euclid. The low surface brightness of the streams (typically >30 mag/arcsec$^2$), however, will make them difficult to detect, unless the streams originate from very young clusters. We emphasize that if the external galaxies do not host spiral arms or galactic bars, gaps in their stellar streams provide an ideal test case for evidence of interactions with dark matter subhalos. Furthermore, obtaining a large samples of thin stellar streams can help constrain the orbital structure and hence the potentials of external halos., Comment: 22 pages, 7 figures, 1 table, submitted to AAS journals, comments welcome

Published

2019

15. On the origin of star-gas counterrotation in low-mass galaxies

Author

Starkenburg, Tjitske K., Sales, Laura V., Genel, Shy, Manzano-King, Christina, Canalizo, Gabriela, and Hernquist, Lars

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Stars in galaxies form from the cold rotationally supported gaseous disks that settle at the center of dark matter halos. In the simplest models, such angular momentum is acquired early on at the time of collapse of the halo and preserved thereafter, implying a well-aligned spin for the stellar and gaseous component. Observations however have shown the presence of gaseous disks in counterrotation with the stars. We use the Illustris numerical simulations to study the origin of such counterrotation in low mass galaxies ($M_\star = 2 \times 10^9$ - $5 \times 10^{10}\; \rm M_\odot$), a sample where mergers have not played a significant role. Only ${\sim}1\%$ of our sample shows a counterrotating gaseous disk at $z=0$. These counterrotating disks arise in galaxies that have had a significant episode of gas removal followed by the acquisition of new gas with misaligned angular momentum. In our simulations, we identify two main channels responsible for the gas loss: a strong feedback burst and gas stripping during a fly-by passage through a more massive group environment. Once settled, counterrotation can be long-lived with several galaxies in our sample displaying misaligned components consistently for more than $2$ Gyr. As a result, no major correlation with the present day environment or structural properties might remain, except for a slight preference for early type morphologies and a lower than average gas content at a given stellar mass., Comment: 16 pages, 11 figures. Submitted to ApJ. Comments welcome

Published

2019

16. What Is Inside Matters: Simulated Green Valley Galaxies Have Centrally Concentrated Star Formation

Author

Starkenburg, Tjitske K., Tonnesen, Stephanie, and Kopenhafer, Claire

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

In spatially resolved galaxy observations, star formation rate radial profiles are found to correlate with total specific star formation rates. A central depletion in star formation is thought to correlate with the globally depressed star formation rates of, for example, galaxies within the Green Valley. We present, for the first time, radial specific star formation rate profiles for a statistical sample of simulated galaxies from the Illustris and EAGLE large cosmological simulations. For galaxies on the star-forming sequence, simulated specific star formation rate profiles are in loose agreement with observations, although galaxies from the EAGLE simulation are too centrally peaked, and galaxies from Illustris have a steeper decline at large radii. However, both galaxy samples show centrally concentrated star formation for galaxies in the Green Valley at all galaxy stellar masses, indicating that quenching occurs from the outside-in, in strong conflict with observations of inside-out quenching. These results appear in spite of the different feedback models in these two simulations. We conclude that the distribution of star formation within galaxies is a strong additional constraint for star formation and feedback models in simulations, in particular related to the quenching of star formation., Comment: ApJL accepted

Published

2018

17. IQ-Collaboratory 1.1: the Star-Forming Sequence of Simulated Central Galaxies

Author

Hahn, ChangHoon, Starkenburg, Tjitske K., Choi, Ena, Davé, Romeel, Dickey, Claire M., Geha, Marla C., Genel, Shy, Hayward, Christopher C., Maller, Ariyeh H., Mandyam, Nityasri, Pandya, Viraj, Popping, Gergö, Rafieferantsoa, Mika, Somerville, Rachel S., and Tinker, Jeremy L.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

A tightly correlated star formation rate-stellar mass relation of star forming galaxies, or star-forming sequence (SFS), is a key feature in galaxy property-space that is predicted by modern galaxy formation models. We present a flexible data-driven approach for identifying this SFS over a wide range of star formation rates and stellar masses using Gaussian mixture modeling (GMM). Using this method, we present a consistent comparison of the $z=0$ SFSs of central galaxies in the Illustris, EAGLE, and Mufasa hydrodynamic simulations and the Santa Cruz semi-analytic model (SC-SAM), alongside data from the Sloan Digital Sky Survey. We find, surprisingly, that the amplitude of the SFS varies by up to ${\sim} 0.7\,\mathrm{dex}$ (factor of ${\sim} 5$) among the simulations with power-law slopes range from $0.7$ to $1.2$. In addition to the SFS, our GMM method also identifies sub-components in the star formation rate-stellar mass relation corresponding to star-burst, transitioning, and quiescent sub-populations. The hydrodynamic simulations are similarly dominated by SFS and quiescent sub-populations unlike the SC-SAM, which predicts substantial fractions of transitioning and star-burst galaxies at stellar masses above and below $10^{10} M_\odot$, respectively. All of the simulations also produce an abundance of low-mass quiescent central galaxies in apparent tension with observations. These results illustrate that, even among models that well reproduce many observables of the galaxy population, the $z=0$ SFS and other sub-populations still show marked differences that can provide strong constraints on galaxy formation models., Comment: 28 pages, 15 figures

Published

2018

18. Dark influences III. Structural characterization of minor mergers of dwarf galaxies with dark satellites

Author

Starkenburg, Tjitske K., Helmi, Amina, and Sales, Laura V.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In the current concordance cosmology small halos are expected to be completely dark and can significantly perturb low-mass galaxies during minor merger interactions. These interactions may well contribute to the diversity of the dwarf galaxy population. Dwarf galaxies in the field are often observed to have peculiarities in their structure, morphology, and kinematics, as well as strong bursts of star formation without apparent cause. We aim to characterize the signatures of minor mergers of dwarf galaxies with dark satellites to aid their observational identification. We explore and quantify a variety of structural, morphological, and kinematic indicators of merging dwarf galaxies and their remnants using a suite of hydrodynamical simulations. The most sensitive indicators of mergers with dark satellites are large asymmetries in the gaseous and stellar distributions, enhanced central surface brightness and starbursts, and velocity offsets and misalignments between the cold gas and stellar components. In general, merging systems span a wide range of values of the most commonly used indicators, while isolated objects tend to have more confined values. Interestingly, we find in our simulations that a significantly off-centered burst of star formation can pinpoint the location of the dark satellite. Observational systems with such characteristics are perhaps the most promising for unveiling the presence of the hitherto, missing satellites., Comment: 9 pages, 7 figures. Accepted in A&A

Published

2015

19. Dark influences II: gas and star formation in minor mergers of dwarf galaxies with dark satellites

Author

Starkenburg, Tjitske K., Helmi, Amina, and Sales, Laura V.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

It has been proposed that mergers induce starbursts and lead to important morphological changes in galaxies. Most studies so far have focused on large galaxies, but dwarfs might also experience such events, since the halo mass function is scale-free in the concordance cosmological model. Notably, because of their low mass, most of their interactions will be with dark satellites. In this paper we follow the evolution of gas-rich disky dwarf galaxies as they experience a minor merger with a dark satellite. We aim to characterize the effects of such an interaction on the dwarf's star formation, morphology, and kinematical properties. We performed a suite of carefully set-up hydrodynamical simulations of dwarf galaxies that include dark matter, gas, and stars merging with a satellite consisting solely of dark matter. For the host system we vary the gas fraction, disk size and thickness, halo mass, and concentration, while we explore different masses, concentrations, and orbits for the satellite. We find that the interactions cause strong starbursts of both short and long duration in the dwarfs. Their star formation rates increase by factors of a few to 10 or more. They are strongest for systems with extended gas disks and high gas fractions merging with a high-concentration satellite on a planar, radial orbit. In contrast to analogous simulations of Milky Way-mass galaxies, many of the systems experience strong morphological changes and become spheroidal even in the presence of significant amounts of gas. The simulated systems compare remarkably well with the observational properties of a large selection of irregular dwarf galaxies and blue compact dwarfs. This implies that mergers with dark satellites might well be happening but not be fully evident, and may thus play a role in the diversity of the dwarf galaxy population., Comment: 15 pages (+4 as appendix), 17 figures (+5 in appendix). A&A accepted

Published

2015

20. Dark influences: imprints of dark satellites on dwarf galaxies

Author

Starkenburg, Tjitske K. and Helmi, Amina

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In the context of the current $\Lambda$CDM cosmological model small dark matter haloes are abundant and satellites of dwarf galaxies are expected to be predominantly dark. Since low mass galaxies have smaller baryon fractions interactions with these satellites may leave particularly dramatic imprints. We uncover the influence of the most massive of these dark satellites on disky dwarf galaxies and the possible dynamical and morphological transformations that result from these interactions. We use a suite of carefully set-up, controlled simulations of isolated dwarf galaxies. The primary dwarf galaxies have solely a stellar disk in the dark matter halo and the secundaries are completely devoid of baryons. We vary the disk mass, halo concentration, initial disk thickness and inclination of the satellite orbit. The disky dwarf galaxies are heated and disrupted due to the minor merger event, more extremely for higher satellite over disk mass ratios, and the morphology and kinematics are significantly altered. Moreover, for less concentrated haloes the minor merger can completely destroy the disk leaving a low-luminosity spheroidal-like galaxy instead. We conclude that dwarf galaxies are very much susceptible to being disturbed by dark galaxies and that even a minor merger event can significantly disrupt and alter the structure and kinematics of a dwarf galaxy. This process may be seen as a new channel for the formation of dwarf spheroidal galaxies., Comment: 16 pages, 13 figures, A&A accepted. For movies or a higher resolution version see http://www.astro.rug.nl/~starkenb/dwarfsanddarks.html

Published

2014

21. JWST Constraints on the UV Luminosity Density at Cosmic Dawn: Implications for 21 cm Cosmology

Author

Hassan, Sultan, primary, Lovell, Christopher C., additional, Madau, Piero, additional, Huertas-Company, Marc, additional, Somerville, Rachel S., additional, Burkhart, Blakesley, additional, Dixon, Keri L., additional, Feldmann, Robert, additional, Starkenburg, Tjitske K., additional, Wu, John F., additional, Jespersen, Christian Kragh, additional, Gelfand, Joseph D., additional, and Bera, Ankita, additional

Published

2023

22. VINTERGATAN-GM: The cosmological imprints of early mergers on Milky-Way-mass galaxies

Author

Rey, Martin P, primary, Agertz, Oscar, additional, Starkenburg, Tjitske K, additional, Renaud, Florent, additional, Joshi, Gandhali D, additional, Pontzen, Andrew, additional, Martin, Nicolas F, additional, Feuillet, Diane K, additional, and Read, Justin I, additional

Published

2023

23. Walter: A Tool for Predicting Resolved Stellar Population Observations with Applications to the Roman Space Telescope

Author

Lancaster, Lachlan, primary, Pearson, Sarah, additional, Williams, Benjamin F., additional, Johnston, Kathryn V., additional, Starkenburg, Tjitske K., additional, Kado-Fong, Erin, additional, Seth, Anil C., additional, and Bell, Eric F., additional

Published

2022

24. IQ Collaboratory. III. The Empirical Dust Attenuation Framework—Taking Hydrodynamical Simulations with a Grain of Dust

Author

Hahn, ChangHoon, primary, Starkenburg, Tjitske K., additional, Anglés-Alcázar, Daniel, additional, Choi, Ena, additional, Davé, Romeel, additional, Dickey, Claire, additional, Iyer, Kartheik G., additional, Maller, Ariyeh H., additional, Somerville, Rachel S., additional, Tinker, Jeremy L., additional, and Yung, L. Y. Aaron, additional

Published

2022

25. The Hough Stream Spotter: A New Method for Detecting Linear Structure in Resolved Stars and Application to the Stellar Halo of M31

Author

Pearson, Sarah, primary, Clark, Susan E., additional, Demirjian, Alexis J., additional, Johnston, Kathryn V., additional, Ness, Melissa K., additional, Starkenburg, Tjitske K., additional, Williams, Benjamin F., additional, and Ibata, Rodrigo A., additional

Published

2022

26. How cosmological merger histories shape the diversity of stellar haloes

Author

Rey, Martin P, primary and Starkenburg, Tjitske K, additional

Published

2021

27. IQ Collaboratory. II. The Quiescent Fraction of Isolated, Low-mass Galaxies across Simulations and Observations

Author

Dickey, Claire M., primary, Starkenburg, Tjitske K., additional, Geha, Marla, additional, Hahn, ChangHoon, additional, Anglés-Alcázar, Daniel, additional, Choi, Ena, additional, Davé, Romeel, additional, Genel, Shy, additional, Iyer, Kartheik G., additional, Maller, Ariyeh H., additional, Mandelker, Nir, additional, Somerville, Rachel S., additional, and Yung, L. Y. Aaron, additional

Published

2021

28. The time-scales probed by star formation rate indicators for realistic, bursty star formation histories from the FIRE simulations

Author

Flores Velázquez, José A, primary, Gurvich, Alexander B, additional, Faucher-Giguère, Claude-André, additional, Bullock, James S, additional, Starkenburg, Tjitske K, additional, Moreno, Jorge, additional, Lazar, Alexandres, additional, Mercado, Francisco J, additional, Stern, Jonathan, additional, Sparre, Martin, additional, Hayward, Christopher C, additional, Wetzel, Andrew, additional, and El-Badry, Kareem, additional

Published

2020

29. How cosmological merger histories shape the diversity of stellar haloes.

Author

Rey, Martin P and Starkenburg, Tjitske K

Subjects

*GALACTIC halos, *GALAXY mergers, *STELLAR mass, *DWARF galaxies, *GALAXY formation, *SUPERGIANT stars, *GALACTIC evolution

Abstract

We introduce and apply a new approach to probe the response of galactic stellar haloes to the interplay between cosmological merger histories and galaxy formation physics. We perform dark matter-only, zoomed simulations of two Milky Way-mass hosts and make targeted, controlled changes to their cosmological histories using the genetic modification technique. Populating each history's stellar halo with a semi-empirical, particle tagging approach then enables a controlled study, with all instances converging to the same large-scale structure, dynamical and stellar mass at z  = 0 as their reference. These related merger scenarios alone generate an extended spread in stellar halo mass fractions (1.5 dex) comparable to the observed population, with the largest scatter achieved by growing late (z ≤ 1) major mergers that spread out existing stars to create massive, in - situ dominated stellar haloes. Increasing a last major merger at z ∼ 2 brings more accreted stars into the inner regions, resulting in smaller scatter in the outskirts which are predominantly built by subsequent minor events. Exploiting the flexibility of our semi-empirical approach, we show that the diversity of stellar halo masses across scenarios is reduced by allowing shallower slopes in the stellar mass–halo mass relation for dwarf galaxies, while it remains conserved when central stars are born with hotter kinematics across cosmic time. The merger-dependent diversity of stellar haloes thus responds distinctly to assumptions in modelling the central and dwarf galaxies respectively, opening exciting prospects to constrain star formation and feedback at different galactic mass-scales with the coming generation of deep, photometric observatories. [ABSTRACT FROM AUTHOR]

Published

2022

30. The breakBRD Breakdown: Using IllustrisTNG to Track the Quenching of an Observationally Motivated Sample of Centrally Star-forming Galaxies

Author

Kopenhafer, Claire, primary, Starkenburg, Tjitske K., additional, Tonnesen, Stephanie, additional, and Tuttle, Sarah, additional

Published

2020

31. The diversity and variability of star formation histories in models of galaxy evolution

Author

Iyer, Kartheik G, primary, Tacchella, Sandro, additional, Genel, Shy, additional, Hayward, Christopher C, additional, Hernquist, Lars, additional, Brooks, Alyson M, additional, Caplar, Neven, additional, Davé, Romeel, additional, Diemer, Benedikt, additional, Forbes, John C, additional, Gawiser, Eric, additional, Somerville, Rachel S, additional, and Starkenburg, Tjitske K, additional

Published

2020

32. Decoupling the rotation of stars and gas – II. The link between black hole activity and simulated IFU kinematics in IllustrisTNG

Author

Duckworth, Christopher, primary, Starkenburg, Tjitske K, primary, Genel, Shy, primary, Davis, Timothy A, primary, Habouzit, Mélanie, primary, Kraljic, Katarina, primary, and Tojeiro, Rita, primary

Published

2020

33. IQ Collaboratory. III. The Empirical Dust Attenuation Frameworkâ€"Taking Hydrodynamical Simulations with a Grain of Dust.

Author

Hahn, ChangHoon, Starkenburg, Tjitske K., Anglés-Alcázar, Daniel, Choi, Ena, Davé, Romeel, Dickey, Claire, Iyer, Kartheik G., Maller, Ariyeh H., Somerville, Rachel S., Tinker, Jeremy L., and Yung, L. Y. Aaron

Subjects

*DUST, *GALAXY formation, *INTELLIGENCE levels, *ASTRONOMICAL surveys, *GALACTIC evolution, *GALAXIES

Abstract

We present the empirical dust attenuation (EDA) frameworkâ€"a flexible prescription for assigning realistic dust attenuation to simulated galaxies based on their physical properties. We use the EDA to forward model synthetic observations for three state-of-the-art large-scale cosmological hydrodynamical simulations: SIMBA, IllustrisTNG, and EAGLE. We then compare the optical and UV colorâ€"magnitude relations, (g âˆ' r) âˆ' M r and (far-UV âˆ'near-UV) âˆ' M r , of the simulations to a M r < âˆ' 20 and UV complete Sloan Digital Sky Survey galaxy sample using likelihood-free inference. Without dust, none of the simulations match observations, as expected. With the EDA, however, we can reproduce the observed colorâ€"magnitude with all three simulations. Furthermore, the attenuation curves predicted by our dust prescription are in good agreement with the observed attenuationâ€"slope relations and attenuation curves of star-forming galaxies. However, the EDA does not predict star-forming galaxies with low A V since simulated star-forming galaxies are intrinsically much brighter than observations. Additionally, the EDA provides, for the first time, predictions on the attenuation curves of quiescent galaxies, which are challenging to measure observationally. Simulated quiescent galaxies require shallower attenuation curves with lower amplitude than star-forming galaxies. The EDA, combined with forward modeling, provides an effective approach for shedding light on dust in galaxies and probing hydrodynamical simulations. This work also illustrates a major limitation in comparing galaxy formation models: by adjusting dust attenuation, simulations that predict significantly different galaxy populations can reproduce the same UV and optical observations. [ABSTRACT FROM AUTHOR]

Published

2022

34. Multiple retrograde substructures in the Galactic halo: A shattered view of Galactic history

Author

Koppelman, Helmer H., primary, Helmi, Amina, additional, Massari, Davide, additional, Price-Whelan, Adrian M., additional, and Starkenburg, Tjitske K., additional

Published

2019

35. Detecting Thin Stellar Streams in External Galaxies: Resolved Stars and Integrated Light

Author

Pearson, Sarah, primary, Starkenburg, Tjitske K., additional, Johnston, Kathryn V., additional, Williams, Benjamin F., additional, Ibata, Rodrigo A., additional, and Khan, Rubab, additional

Published

2019

36. On the Origin of Star–Gas Counterrotation in Low-mass Galaxies

Author

Starkenburg, Tjitske K., primary, Sales, Laura. V., additional, Genel, Shy, additional, Manzano-King, Christina, additional, Canalizo, Gabriela, additional, and Hernquist, Lars, additional

Published

2019

37. What Is Inside Matters: Simulated Green Valley Galaxies Have too Centrally Concentrated Star Formation

Author

Starkenburg, Tjitske K., primary, Tonnesen, Stephanie, additional, and Kopenhafer, Claire, additional

Published

2019

38. IQ-Collaboratory 1.1: The Star-forming Sequence of Simulated Central Galaxies

Author

Hahn, ChangHoon, primary, Starkenburg, Tjitske K., additional, Choi, Ena, additional, Davé, Romeel, additional, Dickey, Claire M., additional, Geha, Marla C., additional, Genel, Shy, additional, Hayward, Christopher C., additional, Maller, Ariyeh H., additional, Mandyam, Nityasri, additional, Pandya, Viraj, additional, Popping, Gergö, additional, Rafieferantsoa, Mika, additional, Somerville, Rachel S., additional, and Tinker, Jeremy L., additional

Published

2019

39. The time-scales probed by star formation rate indicators for realistic, bursty star formation histories from the FIRE simulations.

Author

Flores Velázquez, José A, Gurvich, Alexander B, Faucher-Giguère, Claude-André, Bullock, James S, Starkenburg, Tjitske K, Moreno, Jorge, Lazar, Alexandres, Mercado, Francisco J, Stern, Jonathan, Sparre, Martin, Hayward, Christopher C, Wetzel, Andrew, and El-Badry, Kareem

Subjects

GALACTIC redshift, GALAXY formation, DWARF galaxies, STELLAR populations

Abstract

Understanding the rate at which stars form is central to studies of galaxy formation. Observationally, the star formation rates (SFRs) of galaxies are measured using the luminosity in different frequency bands, often under the assumption of a time-steady SFR in the recent past. We use star formation histories (SFHs) extracted from cosmological simulations of star-forming galaxies from the FIRE project to analyse the time-scales to which the H α and far-ultraviolet (FUV) continuum SFR indicators are sensitive. In these simulations, the SFRs are highly time variable for all galaxies at high redshift, and continue to be bursty to z = 0 in dwarf galaxies. When FIRE SFHs are partitioned into their bursty and time-steady phases, the best-fitting FUV time-scale fluctuates from its ∼10 Myr value when the SFR is time-steady to ≳100 Myr immediately following particularly extreme bursts of star formation during the bursty phase. On the other hand, the best-fitting averaging time-scale for H α is generally insensitive to the SFR variability in the FIRE simulations and remains ∼5 Myr at all times. These time-scales are shorter than the 100 and 10 Myr time-scales sometimes assumed in the literature for FUV and H α, respectively, because while the FUV emission persists for stellar populations older than 100 Myr, the time-dependent luminosities are strongly dominated by younger stars. Our results confirm that the ratio of SFRs inferred using H α versus FUV can be used to probe the burstiness of star formation in galaxies. [ABSTRACT FROM AUTHOR]

Published

2021