Your search keyword '"McClure, Rachel L."' showing total 9 results

1. The Non-Axisymmetric Influence: Radius and Angle-Dependent Trends in a Barred Galaxy

Author

Filion, Carrie, McClure, Rachel L., Weinberg, Martin D., D'Onghia, Elena, and Daniel, Kathryne J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Many disc galaxies host galactic bars, which exert time-dependent, non-axisymmetric forces that can alter the orbits of stars. There should be both angle and radius-dependence in the resulting radial rearrangement of stars ('radial mixing') due to a bar; we present here novel results and trends through analysis of the joint impact of these factors. We use an N-body simulation to investigate the changes in the radial locations of star particles in a disc after a bar forms by quantifying the change in orbital radii in a series of annuli at different times post bar-formation. We find that the bar induces both azimuth angle- and radius- dependent trends in the median distance that stars have travelled to enter a given annulus. Angle-dependent trends are present at all radii we consider, and the radius-dependent trends roughly divide the disc into three 'zones'. In the inner zone, stars generally originated at larger radii and their orbits evolved inwards. Stars in the outer zone likely originated at smaller radii and their orbits evolved outwards. In the intermediate zone, there is no net inwards or outwards evolution of orbits. We adopt a simple toy model of a radius-dependent initial metallicity gradient and discuss recent observational evidence for angle-dependent stellar metallicity variations in the Milky Way in the context of this model. We briefly comment on the possibility of using observed angle-dependent metallicity trends to learn about the initial metallicity gradient(s) and the radial rearrangement that occurred in the disc., Comment: Published in MNRAS, updated to match final refereed version in which a discussion on external galaxies was added

Published

2023

2. Photometric Signature of Ultra-Harmonic Resonances in Barred Galaxies

Author

Krishnarao, Dhanesh, Pace, Zachary J., D'Onghia, Elena, Aguerri, Alfonso L., McClure, Rachel L., Peterken, Thomas, Fernandez-Trincado, Jose G., Merrifield, Michael, Masters, Karen L., Garma-Oehmichen, Luis, Boardman, Nicholas Fraser, Bershady, Matthew, Drory, Niv, and Lane, Richard R.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Bars may induce morphological features, such as rings, through their resonances. Previous studies suggested that the presence of 'dark-gaps', or regions of a galaxy where the difference between the surface brightness along the bar major axis and along the bar minor axis are maximal, can be attributed to the location of bar corotation. Here, using GALAKOS, a high-resolution N-body simulation of a barred galaxy, we test this photometric method's ability to identify the bar corotation resonance. Contrary to previous work, our results indicate that 'dark-gaps' are a clear sign of the location of the 4:1 ultra-harmonic resonance instead of bar corotation. Measurements of the bar corotation can indirectly be inferred using kinematic information, e.g., by measuring the shape of the rotation curve. We demonstrate our concept on a sample of 578 face-on barred galaxies with both imaging and integral field observations and find the sample likely consists primarily of fast bars., Comment: 16 pages, 14 figures, Accepted for publication in ApJ

Published

2022

3. Radial phase spirals in the Solar neighbourhood

Author

Hunt, Jason A. S., Price-Whelan, Adrian M., Johnston, Kathryn V., McClure, Rachel L., Filion, Carrie, Cassese, Ben, Horta, Danny, Hunt, Jason A. S., Price-Whelan, Adrian M., Johnston, Kathryn V., McClure, Rachel L., Filion, Carrie, Cassese, Ben, and Horta, Danny

Abstract

The second data release of ESA's $Gaia$ mission revealed numerous signatures of disequilibrium in the Milky Way's disc. These signatures are seen in the planar kinematics of stars, which manifest as ridges and ripples in $R-v_{\phi}$, and in vertical kinematics, where a prominent spiral is seen in the $z-v_z$ phase space. In this work, we show an equivalent $\Delta R-v_{\mathrm{R}}$ phase spiral forms following a perturbation to the disc. We demonstrate the behaviour of the $\Delta R-v_{\mathrm{R}}$ phase spirals in both a toy model and a high resolution $N$-body simulation of a satellite interaction. We then confront these models with the data, where we find partial $\Delta R-v_{\mathrm{R}}$ phase spirals in the Solar neighborhood using the most recent data from $Gaia$ DR3. This structure indicates ongoing radial phase mixing in the Galactic disc, suggesting a history of recent perturbations, either through internal or external (e.g., satellite) processes. Future work modelling the $z-v_z$ and $\Delta R-v_{\mathrm{R}}$ phase spirals in tandem may help break degeneracy's between possible origins of the perturbation., Comment: 13 pages, 10 figures, published in MNRAS

Published

2024

4. The Non-Axisymmetric Influence: Radius- and Angle-Dependent Trends in a Barred Galaxy

Author

Filion, Carrie, primary, McClure, Rachel L, additional, Weinberg, Martin D, additional, D’Onghia, Elena, additional, and Daniel, Kathryne J, additional

Published

2023

5. Radial phase spirals in the Solar neighbourhood.

Author

Hunt, Jason A S, Price-Whelan, Adrian M, Johnston, Kathryn V, McClure, Rachel L, Filion, Carrie, Cassese, Ben, and Horta, Danny

Subjects

NEIGHBORHOODS, MILKY Way, PHASE space, DATA release, GALACTIC dynamics

Abstract

The second data release of ESA's Gaia mission revealed numerous signatures of disequilibrium in the Milky Way's disc. These signatures are seen in the planar kinematics of stars, which manifest as ridges and ripples in R – v ϕ, and in vertical kinematics, where a prominent spiral is seen in the z – vz phase space. In this work, we show an equivalent Δ R – v R phase spiral forms following a perturbation to the disc. We demonstrate the behaviour of the Δ R – v R phase spirals in both a toy model and a high-resolution N -body simulation of a satellite interaction. We then confront these models with the data, where we find partial Δ R–v R phase spirals in the Solar neighbourhood using the most recent data from Gaia DR3. This structure indicates ongoing radial phase mixing in the Galactic disc, suggesting a history of recent perturbations, either through internal or external (e.g. satellite) processes. Future work modelling the z – vz and Δ R–v R phase spirals in tandem may help break degeneracy's between possible origins of the perturbation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Photometric Signature of Ultraharmonic Resonances in Barred Galaxies

Author

Krishnarao, Dhanesh, Pace, Zachary J., Aguerri, J. Alfonso L., McClure, Rachel L., Peterken, Thomas, Merrifield, Michael, Masters, Karen L., Garma-Oehmichen, Luis, Boardman, Nicholas Fraser, Bershady, Matthew, Drory, Niv, and Lane, Richard R.

Subjects

Space and Planetary Science, Astronomy and Astrophysics

Abstract

Bars may induce morphological features, such as rings, through their resonances. Previous studies suggested that the presence of "dark gaps,"or regions of a galaxy where the difference between the surface brightness along the bar major axis and that along the bar minor axis is maximal, can be attributed to the location of bar corotation. Here, using GALAKOS, a high-resolution N-body simulation of a barred galaxy, we test this photometric method's ability to identify the bar corotation resonance. Contrary to previous work, our results indicate that "dark gaps"are a clear sign of the location of the 4:1 ultraharmonic resonance instead of bar corotation. Measurements of the bar corotation can indirectly be inferred using kinematic information, e.g., by measuring the shape of the rotation curve. We demonstrate our concept on a sample of 578 face-on barred galaxies with both imaging and integral field observations and find that the sample likely consists primarily of fast bars.

Published

2022

7. The aging slow wave: a shifting amalgam of distinct slow wave and spindle coupling subtypes define slow wave sleep across the human lifespan

Author

McConnell, Brice V, primary, Kronberg, Eugene, additional, Teale, Peter D, additional, Sillau, Stefan H, additional, Fishback, Grace M, additional, Kaplan, Rini I, additional, Fought, Angela J, additional, Dhanasekaran, A Ranjitha, additional, Berman, Brian D, additional, Ramos, Alberto R, additional, McClure, Rachel L, additional, and Bettcher, Brianne M, additional

Published

2021

8. The Aging Slow Wave: A Shifting Amalgam of Distinct Slow Wave and Spindle Coupling Subtypes Define Slow Wave Sleep Across the Human Lifespan

Author

McConnell, Brice V., primary, Kronberg, Eugene, additional, Teale, Peter D., additional, Fishback, Grace M., additional, Kaplan, Rini I., additional, Sillau, Stefan H., additional, Fought, Angela J., additional, Dhanasekaran, A. Ranjitha, additional, Berman, Brian D., additional, Ramos, Alberto R., additional, McClure, Rachel L., additional, and Bettcher, Brianne M., additional

Published

2020

9. aging slow wave: a shifting amalgam of distinct slow wave and spindle coupling subtypes define slow wave sleep across the human lifespan.

Author

McConnell, Brice V, Kronberg, Eugene, Teale, Peter D, Sillau, Stefan H, Fishback, Grace M, Kaplan, Rini I, Fought, Angela J, Dhanasekaran, A Ranjitha, Berman, Brian D, Ramos, Alberto R, McClure, Rachel L, and Bettcher, Brianne M

Published

2021