Your search keyword '"Corlies, P."' showing total 114 results

1. Optical alignment of contamination-sensitive Far-Ultraviolet spectrographs for Aspera SmallSat mission

Author

Khan, Aafaque R., Hamden, Erika, Chung, Haeun, Choi, Heejoo, Kim, Daewook, Melso, Nicole, Hoadley, Keri, Vargas, Carlos J., Truong, Daniel, Garcia, Elijah, Verts, Bill, Coronado, Fernando, Noenickx, Jamison, Corliss, Jason, Tanquary, Hannah, Mcmahon, Tom, Hamara, Dave, Agarwal, Simran, Augustin, Ramona, Behroozi, Peter, Bradley, Harrison, Brendel, Trenton, Burchett, Joe, Castillo, Jasmine Martinez, Chambers, Jacob, Corlies, Lauren, Davis, Greyson, Dettmar, Ralf-Jürgen, Douglas, Ewan, Ghidoli, Giulia, Goodwin, Alfred, Harris, Walter, Hergenrother, Carl, Howk, J. Christopher, Keppler, Miriam, Kerkeser, Nazende Ipek, Kidd Jr., John N., Li, Jessica S., Noriega, Gabe, Park, Sooseong, Pecha, Ryan, Sauve, Cork, Schiminovich, David, Selznick, Sanford, Siegmund, Oswald, Su, Rebecca, Uppnor, Sumedha, Vider, Jacob, Wolcott, Ellie, Yescas, Naomi, and Zaritsky, Dennis

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors, Physics - Optics

Abstract

Aspera is a NASA Astrophysics Pioneers SmallSat mission designed to study diffuse OVI emission from the warm-hot phase gas in the halos of nearby galaxies. Its payload consists of two identical Rowland Circle-type long-slit spectrographs, sharing a single MicroChannel plate detector. Each spectrograph channel consists of an off-axis parabola primary mirror and a toroidal diffraction grating optimized for the 1013-1057 Angstroms bandpass. Despite the simple configuration, the optical alignment/integration process for Aspera is challenging due to tight optical alignment tolerances, driven by the compact form factor, and the contamination sensitivity of the Far-Ultraviolet optics and detectors. In this paper, we discuss implementing a novel multi-phase approach to meet these requirements using state-of-the-art optical metrology tools. For coarsely positioning the optics we use a blue-laser 3D scanner while the fine alignment is done with a Zygo interferometer and a custom computer-generated hologram. The detector focus requires iterative in-vacuum alignment using a Vacuum UV collimator. The alignment is done in a controlled cleanroom facility at the University of Arizona., Comment: Manuscript submitted for Proceedings of Astronomical Telescopes + Instrumentation 2024, Paper no. 13093-9

Published

2024

2. Clouds and Seasonality on Terrestrial Planets with Varying Rotation Rates

Author

Williams, Daniel A., Ji, Xuan, Corlies, Paul, and Lora, Juan M.

Subjects

Physics - Atmospheric and Oceanic Physics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Using an idealised climate model incorporating seasonal forcing, we investigate the impact of rotation rate on the abundance of clouds on an Earth-like aquaplanet, and the resulting impacts upon albedo and seasonality. We show that the cloud distribution varies significantly with season, depending strongly on the rotation rate, and is well explained by the large-scale circulation and atmospheric state. Planetary albedo displays non-monotonic behaviour with rotation rate, peaking at around 1/2$\Omega_E$. Clouds reduce the surface temperature and total precipitation relative to simulations without clouds at all rotation rates, and reduce the dependence of total precipitation on rotation rate, causing non-monotonic behaviour and a local maximum around 1/8$\Omega_E$ ; these effects are related to the impacts of clouds on the net atmospheric and surface radiative energy budgets. Clouds also affect the seasonality. The influence of clouds on the extent of the winter Hadley cell and the intertropical convergence zone is relatively minor at slow rotation rates ($<$1/8$\Omega_E$ ), but becomes more pronounced at intermediate rotation rates, where clouds decrease their maximum latitudes. The timing of seasonal transitions varies with rotation rate, and the addition of clouds reduces the seasonal phase lag., Comment: 21 pages, 9 figures

Published

2024

3. Figuring Out Gas & Galaxies In Enzo (FOGGIE) VII: The (Dis)Assembly of Stellar Halos

Author

Wright, Anna C., Tumlinson, Jason, Peeples, Molly S., O'Shea, Brian W., Lochhaas, Cassandra, Corlies, Lauren, Smith, Britton D., Binh, Nguyen, Augustin, Ramona, and Simons, Raymond C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Over the next decade, the astronomical community will be commissioning multiple wide-field observatories well-suited for studying stellar halos in both integrated light and resolved stars. In preparation for this, we use five high-resolution cosmological simulations of Milky Way-like galaxies from the FOGGIE suite to explore the properties and components of stellar halos. These simulations are run with high time (5 Myr) and stellar mass (1000 M$_\odot$) resolution to better model the properties and origins of low density regions like stellar halos. We find that the FOGGIE stellar halos have masses, metallicity gradients, and surface brightness profiles that are consistent with observations. In agreement with other simulations, the FOGGIE stellar halos receive 30-40% of their mass from in situ stars. However, this population is more centrally concentrated in the FOGGIE simulations and therefore does not contribute excess light to the halo outskirts. The remaining stars are accreted from 10-50 other galaxies, with the majority of the accreted mass originating in 2-4 galaxies. While the inner halo ($r<50$ kpc) of each FOGGIE galaxy has a large number of contributors, the halo outskirts of three of the five galaxies are primarily made up of stars from only a few contributors. We predict that upcoming wide-field observatories, like the Nancy Grace Roman Space Telescope, will probe stellar halos around Milky Way-like galaxies out to ~100 kpc in integrated light and will be able to distinguish the debris of dwarf galaxies with extended star formation histories from the underlying halo with resolved color-magnitude diagrams., Comment: 33 pages, 15 figures, accepted to ApJ

Published

2023

4. Aeolian sediment transport on Io from lava-frost interactions

Author

McDonald, George D., Harper, Joshua Méndez, Ojha, Lujendra, Corlies, Paul, Dufek, Josef, Ewing, Ryan C., and Kerber, Laura

Subjects

Astrophysics - Earth and Planetary Astrophysics, Physics - Geophysics

Abstract

Surface modification on Jupiter's volcanically active moon, Io, has to date been attributed almost exclusively to lava emplacement and volcanic plume deposits. Here we demonstrate that wind-blown transport of sediment may also be altering the Ionian surface. Specifically, shallow subsurface interactions between lava and Io's widespread sulfur dioxide (SO$_2$) frost can produce localized sublimation vapor flows with sufficient gas densities to enable particle saltation. We calculate anticipated outgassing velocities from lava-SO$_2$ frost interactions, and compare these to the saltation thresholds predicted when accounting for the tenuous nature of the sublimated vapor. We find that saltation may occur if frost temperatures surpass 155 K. Finally we make the first measurements of the dimensions of linear features in images from the Galileo probe, previously termed "ridges", which demonstrate certain similarities to dunes on other planetary bodies. Io joins a growing list of bodies with tenuous and transient atmospheres where aeolian sediment transport may be an important control on the landscape., Comment: 17 pages, 6 figures. Published in Nature Communications

Published

2022

5. Towards Equitable, Diverse, and Inclusive Science Collaborations: The Multimessenger Diversity Network

Author

Bechtol, E., Bechtol, K., BenZvi, S., Bleve, C., Castro, D., Cenko, B., Corlies, L., Furniss, A., Hui, C. M., Kaplan, D., Key, J. S., Madsen, J., McNally, F., McLaughlin, M., Mukherjee, R., Ojha, R., Sanders, J., Santander, M., Schlieder, J., Shoemaker, D. H., and Vigeland, S.

Subjects

Physics - Physics Education, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Multimessenger Diversity Network (MDN), formed in 2018, extends the basic principle of multimessenger astronomy -- that working collaboratively with different approaches enhances understanding and enables previously impossible discoveries -- to equity, diversity, and inclusion (EDI) in science research collaborations. With support from the National Science Foundation INCLUDES program, the MDN focuses on increasing EDI by sharing knowledge, experiences, training, and resources among representatives from multimessenger science collaborations. Representatives to the MDN become engagement leads in their collaboration, extending the reach of the community of practice. An overview of the MDN structure, lessons learned, and how to join are presented., Comment: Presented at the 37th International Cosmic Ray Conference (ICRC 2021). See arXiv:2107.06966 for all IceCube contributions

Published

2021

6. Titan: Earth-like on the Outside, Ocean World on the Inside

Author

MacKenzie, Shannon M., Birch, Samuel P. D., Horst, Sarah, Sotin, Christophe, Barth, Erika, Lora, Juan M., Trainer, Melissa G., Corlies, Paul, Malaska, Michael J., Sciamma-O'Brien, Ella, Thelen, Alexander E., Turtle, Elizabeth P., Radebaugh, Jani, Hanley, Jennifer, Solomonidou, Anezina, Newman, Claire, Regoli, Leonardo, Rodriguez, Sebastien, Seignovert, Benoit, Hayes, Alexander G., Journaux, Baptiste, Steckloff, Jordan, Nna-Mvondo, Delphine, Cornet, Thomas, Palmer, Maureen, Lopes, Rosaly M. C., Vinatier, Sandrine, Lorenz, Ralph, Nixon, Conor, Czaplinski, Ellen, Barnes, Jason W., Sittler, Ed, and Coates, Andrew

Subjects

Astrophysics - Earth and Planetary Astrophysics, Physics - Atmospheric and Oceanic Physics

Abstract

Thanks to the Cassini-Huygens mission, Titan, the pale orange dot of Pioneer and Voyager encounters has been revealed to be a dynamic, hydrologically-shaped, organic-rich ocean world offering unparalleled opportunities to explore prebiotic chemistry. And while Cassini-Huygens revolutionized our understanding of each of the three layers of Titan--the atmosphere, the surface, and the interior--we are only beginning to hypothesize how these realms interact. In this paper, we summarize the current state of Titan knowledge and discuss how future exploration of Titan would address some of the next decade's most compelling planetary science questions. We also demonstrate why exploring Titan, both with and beyond the Dragonfly New Frontiers mission, is a necessary and complementary component of an Ocean Worlds Program that seeks to understand whether habitable environments exist elsewhere in our solar system., Comment: Submitted to the PSJ Focus Issue on Ocean World Exploration

Published

2021

7. Modeling transmission windows in Titan's lower troposphere: Implications for infrared spectrometers aboard future aerial and surface missions

Author

Corlies, Paul, McDonald, George D., Hayes, Alexander G., Wray, James J., Adamkovics, Mate, Malaska, Michael J., Cable, Morgan L., Hofgartner, Jason D., Horst, Sarah M., Liuzzo, Lucas R., Buffo, Jacob J., Lorenz, Ralph D., and Turtle, Elizabeth P.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

From orbit, the visibility of Titan's surface is limited to a handful of narrow spectral windows in the near-infrared (near-IR), primarily from the absorption of methane gas. This has limited the ability to identify specific compounds on the surface -- to date Titan's bulk surface composition remains unknown. Further, understanding of the surface composition would provide insight into geologic processes, photochemical production and evolution, and the biological potential of Titan's surface. One approach to obtain wider spectral coverage with which to study Titan's surface is by decreasing the integrated column of absorbers (primarily methane) and scatterers between the observer and the surface. This is only possible if future missions operate at lower altitudes in Titan's atmosphere. Herein, we use a radiative transfer model to measure in detail the absorption through Titan's atmosphere from different mission altitudes, and consider the impacts this would have for interpreting reflectance measurements of Titan's surface. Over our modeled spectral range of 0.4 - 10 micron, we find that increases in the width of the transmission windows as large as 317% can be obtained for missions performing remote observations at the surface. However, any appreciable widening of the windows requires onboard illumination. Further, we make note of possible surface compounds that are not currently observable from orbit, but could be identified using the wider windows at low altitudes. These range from simple nitriles such as cyanoacetylene, to building blocks of amino acids such as urea. Finally, we discuss the implications that the identifications of these compounds would have for Titan science., Comment: 52 pages, 6 figures, Icarus 2020

Published

2020

8. Figuring Out Gas & Galaxies In Enzo (FOGGIE). IV. The Stochasticity of Ram Pressure Stripping in Galactic Halos

Author

Simons, Raymond C., Peeples, Molly S., Tumlinson, Jason, O'Shea, Brian W., Smith, Britton D., Corlies, Lauren, Lochhaas, Cassandra, Zheng, Yong, Augustin, Ramona, Prasad, Deovrat, Snyder, Gregory F., and Tollerud, Erik

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We study ram pressure stripping in simulated Milky Way-like halos at z>=2 from the Figuring Out Gas & Galaxies In Enzo (FOGGIE) project. These simulations reach exquisite resolution in their circumgalactic medium (CGM) gas owing to FOGGIE's novel refinement scheme. The CGM of each halo spans a wide dynamic range in density and velocity over its volume---roughly 6 dex and 1000 km/s, respectively---translating into a 5 dex range in ram pressure imparted to interacting satellites. The ram pressure profiles of the simulated CGM are highly stochastic, owing to kpc-scale variations of the density and velocity fields of the CGM gas. As a result, the efficacy of ram pressure stripping depends strongly on the specific path a satellite takes through the CGM. The ram-pressure history of a single satellite is generally unpredictable and not well correlated with its approach vector with respect to the host galaxy. The cumulative impact of ram pressure on the simulated satellites is dominated by only a few short strong impulses---on average, 90% of the total surface momentum gained through ram pressure is imparted in 20% or less of the total orbital time. These results reveal an erratic mode of ram pressure stripping in Milky-Way like halos at high redshift---one that is not captured by a smooth spherically-averaged model of the circumgalactic medium., Comment: 18 pages, 10 figures. Submitted to ApJ

Published

2020

9. Figuring Out Gas & Galaxies in Enzo (FOGGIE). III. The Mocky Way: Investigating Biases in Observing the Milky Way's Circumgalactic Medium

Author

Zheng, Yong, Peeples, Molly S., O'Shea, Brian W., Simons, Raymond C., Lochhaas, Cassandra, Corlies, Lauren, Tumlinson, Jason, Smith, Britton D., and Augustin, Ramona

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The circumgalactic medium (CGM) of the Milky Way is mostly obscured by nearby gas in position-velocity space because we reside inside the Galaxy. Substantial biases exist in most studies on the Milky Way's CGM that focus on easier-to-detect high-velocity gas. With mock observations on a Milky-Way analog from the FOGGIE simulation, we investigate four observational biases related to the Milky Way's CGM. First, QSO absorption-line studies probe a limited amount of the CGM mass: only 35% of the mass is at high Galactic latitudes $|b|>20$ degrees, of which only half is moving at $|v_{\rm LSR}|\gtrsim100$ km s$^{-1}$. Second, the inflow rate ($\dot{M}$) of the cold gas observable in HI 21cm is reduced by a factor of $\sim10$ as we switch from the local standard of rest to the galaxy's rest frame; meanwhile $\dot{M}$ of the cool and warm gas does not change significantly. Third, OVI and NV are promising ions to probe the Milky Way's outer CGM ($r\gtrsim$15 kpc), but CIV may be less sensitive. Lastly, the scatter in ion column density is a factor of 2 higher if the CGM is observed from inside-out than from external views because of the gas radial density profile. Our work highlights that observations of the Milky Way's CGM, especially those using HI 21cm and QSO absorption lines, are highly biased. We demonstrate that these biases can be quantified and calibrated through synthetic observations with simulated Milky-Way analogs., Comment: ApJ in press

Published

2020

10. A Need for Dedicated Outreach Expertise and Online Programming: Astro2020 Science White Paper

Author

Bauer, Amanda E, Lundgren, Britt, O'Mullane, William, Corlies, Lauren, Schwamb, Megan E, Nord, Brian, and Norman, Dara J

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Physics - Physics Education

Abstract

Maximizing the public impact of astronomy projects in the next decade requires NSF-funded centers to support the development of online, mobile-friendly outreach and education activities. EPO teams with astronomy, education, and web development expertise should be in place to build accessible programs at scale and support astronomers doing outreach., Comment: 9 pages, Astro2020 Science White Paper. arXiv admin note: substantial text overlap with arXiv:1905.05116

Published

2019

11. Migrating Scarps as a Significant Driver for Cometary Surface Evolution

Author

Birch, Samuel, Hayes, Alexander, Umurhan, Orkan, Tang, Yuhui, Vincent, Jean-Baptiste, Oklay, Nilda, Bodewits, Dennis, Davidsson, Bjorn, Marschall, Raphael, Soderblom, Jason, Moore, Jeff, Corlies, Paul, and Squyres, Steven

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Rosetta observations of 67P/Churyumov-Gerasimenko (67P) reveal that most changes occur in the fallback-generated smooth terrains, vast deposits of granular material blanketing the comet's northern hemisphere. These changes express themselves both morphologically and spectrally across the nucleus, yet we lack a model that describes their formation and evolution. Here we present a self-consistent model that thoroughly explains the activity and mass loss from Hapi's smooth terrains. Our model predicts the removal of dust via re-radiated solar insolation localized within depression scarps that are substantially more ice-rich than previously expected. We couple our model with numerous Rosetta observations to thoroughly capture the seasonal erosion of Hapi's smooth terrains, where local scarp retreat gradually removes the uppermost dusty mantle. As sublimation-regolith interactions occur on rocky planets, comets, icy moons and KBOs, our coupled model and observations provide a foundation for future understanding of the myriad of sublimation-carved worlds., Comment: 14 pages, 4 figures, accepted GRL

Published

2019

12. Astro2020 APC White Paper: Pursuing diversity, equity, and inclusion in multimessenger astronomy collaborations over the coming decade

Author

Network, The Multimessenger Diversity, Bechtol, E., Bechtol, K., BenZvi, S., Cenko, B., Corlies, L., Couvares, P., Furniss, A., Hays, E., Hui, C. M., Kaplan, D. L., Key, J. S., Madsen, J., McLaughlin, M., McNally, F., Mukherjee, R., Santander, M., Vigeland, S., and Zuniga-Paiz, J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

A major goal for the astronomy and astrophysics communities is the pursuit of diversity, equity, and inclusion (DEI) in all ranks, from students through professional scientific researchers. Large scientific collaborations - increasingly a primary place for both professional interactions and research opportunities - can play an important role in the DEI effort. Multimessenger astronomy, a new and growing field, is based on the principle that working collaboratively produces synergies, enabling advances that would not be possible without cooperation. The nascent Multimessenger Diversity Network (MDN) is extending this collaborative approach to include DEI initiatives. After we review of the current state of DEI in astronomy and astrophysics, we describe the strategies the MDN is developing and disseminating to support and increase DEI in the fields over the coming decade: provide opportunities (real and virtual) to share DEI knowledge and resources, include DEI in collaboration-level activities, including external reviews, and develop and implement ways to recognize the DEI work of collaboration members., Comment: Submitted to the Astro2020 Decadal Survey APC White Paper call

Published

2019

13. Understanding the circumgalactic medium is critical for understanding galaxy evolution

Author

Peeples, Molly S., Behroozi, Peter, Bordoloi, Rongmon, Brooks, Alyson, Bullock, James S., Burchett, Joseph N., Chen, Hsiao-Wen, Chisholm, John, Christensen, Charlotte, Coil, Alison, Corlies, Lauren, Diamond-Stanic, Aleksandar, Donahue, Megan, Faucher-Giguère, Claude-André, Ferguson, Henry, Fielding, Drummond, Fox, Andrew J., French, David M., Furlanetto, Steven R., Gennaro, Mario, Gilbert, Karoline M., Hamden, Erika, Hathi, Nimish, Hayes, Matthew, Henry, Alaina, Howk, J. Christopher, Hummels, Cameron, Kereš, Dušan, Kirby, Evan, Koekemoer, Anton M., Lan, Ting-Wen, Lanz, Lauranne, Law, David R., Lehner, Nicolas, Lotz, Jennifer M., Martin, Crystal L., McQuinn, Kristen, McQuinn, Matthew, Munshi, Ferah, Oh, S. Peng, O'Meara, John M., O'Shea, Brian W., Pacifici, Camilla, Peek, J. E. G., Postman, Marc, Prescott, Moire, Putman, Mary, Quataert, Eliot, Rafelski, Marc, Ribaudo, Joseph, Rowlands, Kate, Rubin, Kate, Salmon, Brett, Scarlata, Claudia, Shapley, Alice E., Simons, Raymond, Snyder, Gregory F., Stern, Jonathan, Strom, Allison L., Tollerud, Erik, Torrey, Paul, Tremblay, Grant, Tripp, Todd M., Tumlinson, Jason, Tuttle, Sarah, Bosch, Frank C. van den, Voit, G. Mark, Wang, Q. Daniel, Werk, Jessica K., Williams, Benjamin F., Zaritsky, Dennis, and Zheng, Yong

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Galaxies evolve under the influence of gas flows between their interstellar medium and their surrounding gaseous halos known as the circumgalactic medium (CGM). The CGM is a major reservoir of galactic baryons and metals, and plays a key role in the long cycles of accretion, feedback, and recycling of gas that drive star formation. In order to fully understand the physical processes at work within galaxies, it is therefore essential to have a firm understanding of the composition, structure, kinematics, thermodynamics, and evolution of the CGM. In this white paper we outline connections between the CGM and galactic star formation histories, internal kinematics, chemical evolution, quenching, satellite evolution, dark matter halo occupation, and the reionization of the larger-scale intergalactic medium in light of the advances that will be made on these topics in the 2020s. We argue that, in the next decade, fundamental progress on all of these major issues depends critically on improved empirical characterization and theoretical understanding of the CGM. In particular, we discuss how future advances in spatially-resolved CGM observations at high spectral resolution, broader characterization of the CGM across galaxy mass and redshift, and expected breakthroughs in cosmological hydrodynamic simulations will help resolve these major problems in galaxy evolution., Comment: Astro2020 Decadal Science White Paper

Published

2019

14. Figuring Out Gas and Galaxies in Enzo (FOGGIE). VII. The (Dis)assembly of Stellar Halos

Author

Anna C. Wright, Jason Tumlinson, Molly S. Peeples, Brian W. O’Shea, Cassandra Lochhaas, Lauren Corlies, Britton D. Smith, Nguyen Binh, Ramona Augustin, and Raymond C. Simons

Subjects

Galaxy stellar halos, Hydrodynamical simulations, Dwarf galaxies, Galaxy evolution, Astrophysics, QB460-466

Abstract

Over the next decade, the astronomical community will be commissioning multiple wide-field observatories well suited for studying stellar halos in both integrated light and resolved stars. In preparation for this, we use five high-resolution cosmological simulations of Milky Way–like galaxies from the FOGGIE suite to explore the properties and components of stellar halos. These simulations are run with high time (5 Myr) and stellar mass (1000 M _⊙ ) resolution to better model the properties and origins of low-density regions like stellar halos. We find that the FOGGIE stellar halos have masses, metallicity gradients, and surface brightness profiles that are consistent with observations. In agreement with other simulations, the FOGGIE stellar halos receive 30%–40% of their mass from in situ stars. However, this population is more centrally concentrated in the FOGGIE simulations and therefore does not contribute excess light to the halo outskirts. The remaining stars are accreted from ∼10–50 other galaxies, with the majority of the accreted mass originating in two to four galaxies. While the inner halo ( r < 50 kpc) of each FOGGIE galaxy has a large number of contributors, the halo outskirts of three of the five galaxies are primarily made up of stars from only a few contributors. We predict that upcoming wide-field observatories, like the Nancy Grace Roman Space Telescope, will probe stellar halos around Milky Way–like galaxies out to ∼100 kpc in integrated light and will be able to distinguish the debris of dwarf galaxies with extended star formation histories from the underlying halo with resolved color–magnitude diagrams.

Published

2024

15. Clouds and Seasonality on Terrestrial Planets with Varying Rotation Rates

Author

Daniel A. Williams, Xuan Ji, Paul Corlies, and Juan M. Lora

Subjects

Atmospheric dynamics, Atmospheric clouds, Planetary atmospheres, Exoplanet atmospheres, Planetary climates, Albedo, Astrophysics, QB460-466

Abstract

Using an idealized climate model incorporating seasonal forcing, we investigate the impact of rotation rate on the abundance of clouds on an Earth-like aquaplanet, and the resulting impacts upon albedo and seasonality. We show that the cloud distribution varies significantly with season, depending strongly on the rotation rate, and is well explained by the large-scale circulation and atmospheric state. Planetary albedo displays nonmonotonic behavior with rotation rate, peaking at around 1/2Ω _E . Clouds reduce the surface temperature and total precipitation relative to simulations without clouds at all rotation rates, and reduce the dependence of total precipitation on rotation rate, causing nonmonotonic behavior and a local maximum around 1/8Ω _E ; these effects are related to the impacts of clouds on the net atmospheric and surface radiative energy budgets. Clouds also affect the seasonality. The influence of clouds on the extent of the winter Hadley cell and the intertropical convergence zone is relatively minor at slow rotation rates (

Published

2024

16. Figuring Out Gas & Galaxies in Enzo (FOGGIE). II. Emission from the z=3 Circumgalactic Medium

Author

Corlies, Lauren, Peeples, Molly S., Tumlinson, Jason, O'Shea, Brian W., Lehner, Nicolas, Howk, J. Christopher, and O'Meara, John M.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Observing the circumgalactic medium (CGM) in emission provides 3D maps of the spatial and kinematic extent of the gas that fuels galaxies and receives their feedback. We present mock emission-line maps of highly resolved CGM gas from the FOGGIE project (Figuring Out Gas & Galaxies in Enzo) and link these maps back to physical and spatial properties of the gas. By increasing the spatial resolution alone, the total luminosity of the line emission increases by an order of magnitude. This increase arises in the abundance of dense small-scale structure resolved when the CGM gas is simulated to < 100 pc scales. Current integral field unit instruments like KCWI and MUSE should be able to detect the brightest knots and filaments of such emission, and from this to infer the bulk kinematics of the CGM gas with respect to the galaxy. We conclude that accounting for small-scale structure well below the level of instrument spatial resolution is necessary to properly interpret such observations in terms of the underlying gas structure driving observable emission., Comment: 18 pages, 10 figures. Submitted to ApJ. Comments welcome

Published

2018

17. Figuring Out Gas & Galaxies in Enzo (FOGGIE). I. Resolving Simulated Circumgalactic Absorption at 2 < z < 2.5

Author

Peeples, Molly S., Corlies, Lauren, Tumlinson, Jason, O'Shea, Brian W., Lehner, Nicolas, O'Meara, John M., Howk, J. Christopher, Smith, Britton D., Wise, John H., and Hummels, Cameron B.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present simulations from the new "Figuring Out Gas & Galaxies in Enzo" (FOGGIE) project. In contrast to most extant simulations of galaxy formation, which concentrate computational resources on galactic disks and spheroids with fluid and particle elements of fixed mass, the FOGGIE simulations focus on extreme spatial and mass resolution in the circumgalactic medium (CGM) surrounding galaxies. Using the Enzo code and a new refinement scheme, FOGGIE reaches spatial resolutions of 381 comoving $h^{-1}$ pc and resolves extremely low masses ($\lesssim 1$--$100$ Msun out to 100 comoving $h^{-1}$ kpc from the central halo. At these resolutions, cloud and filament-like structures giving rise to simulated absorption are smaller, and better resolved, than the same structures simulated with standard density-dependent refinement. Most of the simulated absorption arises in identifiable and well-resolved structures with masses $\lesssim 10^4$ Msun, well below the mass resolution of typical zoom simulations. However, integrated quantities such as mass surface density and ionic covering fractions change at only the $\lesssim 30$% level as resolution is varied. This relatively small changes in projected quantities---even when the sizes and distribution of absorbing clouds change dramatically---indicate that commonly used observables provide only weak constraints on the physical structure of the underlying gas. Comparing the simulated absorption features to the KODIAQ (Keck Observatory Database of Ionized Absorption toward Quasars) survey of $z \sim2$--$3.5$ Lyman limit systems, we show that high-resolution FOGGIE runs better resolve the internal kinematic structure of detected absorption, and better match the observed distribution of absorber properties. These results indicate that CGM resolution is key in properly testing simulations of galaxy evolution with circumgalactic observations., Comment: ApJ, in press. New appendix with results from simulation with 78pc resolution CGM at z=2.5 now included. Appendix C with additional velocity phase diagrams has been omitted to fit within the arXiv space restraints

Published

2018

18. Exploring Simulated Early Star Formation in the Context of the Ultrafaint Dwarf Galaxies

Author

Corlies, Lauren, Johnston, Kathryn V., and Wise, John H.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Ultrafaint dwarf galaxies (UFDs) are typically assumed to have simple, stellar populations with star formation ending at reionization. Yet as the observations of these galaxies continue to improve, their star formation histories (SFHs) are revealed to be more complicated than previously thought. In this paper, we study how star formation, chemical enrichment, and mixing proceed in small, dark matter halos at early times using a high-resolution, cosmological, hydrodynamical simulation. The goals are to inform the future use of analytic models and to explore observable properties of the simulated halos in the context of UFD data. Specifically, we look at analytic approaches that might inform metal enrichment within and beyond small galaxies in the early Universe. We find that simple assumptions for modeling the extent of supernova-driven winds agree with the simulation on average whereas inhomogeneous mixing and gas flows have a large effect on the spread in simulated stellar metallicities. In the context of the UFDs, this work demonstrates that simulations can form halos with a complex SFH and a large spread in the metallicity distribution function within a few hundred Myr in the early Universe. In particular, bursty and continuous star formation are seen in the simulation and both scenarios have been argued from the data. Spreads in the simulated metallicities, however remain too narrow and too metal-rich when compared to the UFDs. Future work is needed to help reduce these discrepancies and advance our interpretation of the data., Comment: 14 pages, 11 figures, accepted by MNRAS

Published

2018

19. Understanding the circumgalactic medium is critical for understanding galaxy evolution

Author

Peeples, Molly S, Behroozi, Peter, Bordoloi, Rongmon, Brooks, Alyson, Bullock, James S, Burchett, Joseph N, Chen, Hsiao-Wen, Chisholm, John, Christensen, Charlotte, Coil, Alison, Corlies, Lauren, Diamond-Stanic, Aleksandar, Donahue, Megan, Faucher-Giguère, Claude-André, Ferguson, Henry, Fielding, Drummond, Fox, Andrew J, French, David M, Furlanetto, Steven R, Gennaro, Mario, Gilbert, Karoline M, Hamden, Erika, Hathi, Nimish, Hayes, Matthew, Henry, Alaina, Howk, J Christopher, Hummels, Cameron, Kereš, Dušan, Kirby, Evan, Koekemoer, Anton M, Lan, Ting-Wen, Lanz, Lauranne, Law, David R, Lehner, Nicolas, Lotz, Jennifer M, Martin, Crystal L, McQuinn, Kristen, McQuinn, Matthew, Munshi, Ferah, Oh, S Peng, O'Meara, John M, O'Shea, Brian W, Pacifici, Camilla, Peek, JEG, Postman, Marc, Prescott, Moire, Putman, Mary, Quataert, Eliot, Rafelski, Marc, Ribaudo, Joseph, Rowlands, Kate, Rubin, Kate, Salmon, Brett, Scarlata, Claudia, Shapley, Alice E, Simons, Raymond, Snyder, Gregory F, Stern, Jonathan, Strom, Allison L, Tollerud, Erik, Torrey, Paul, Tremblay, Grant, Tripp, Todd M, Tumlinson, Jason, Tuttle, Sarah, Bosch, Frank C van den, Voit, G Mark, Wang, Q Daniel, Werk, Jessica K, Williams, Benjamin F, Zaritsky, Dennis, and Zheng, Yong

Subjects

astro-ph.GA

Abstract

Galaxies evolve under the influence of gas flows between their interstellarmedium and their surrounding gaseous halos known as the circumgalactic medium(CGM). The CGM is a major reservoir of galactic baryons and metals, and plays akey role in the long cycles of accretion, feedback, and recycling of gas thatdrive star formation. In order to fully understand the physical processes atwork within galaxies, it is therefore essential to have a firm understanding ofthe composition, structure, kinematics, thermodynamics, and evolution of theCGM. In this white paper we outline connections between the CGM and galacticstar formation histories, internal kinematics, chemical evolution, quenching,satellite evolution, dark matter halo occupation, and the reionization of thelarger-scale intergalactic medium in light of the advances that will be made onthese topics in the 2020s. We argue that, in the next decade, fundamentalprogress on all of these major issues depends critically on improved empiricalcharacterization and theoretical understanding of the CGM. In particular, wediscuss how future advances in spatially-resolved CGM observations at highspectral resolution, broader characterization of the CGM across galaxy mass andredshift, and expected breakthroughs in cosmological hydrodynamic simulationswill help resolve these major problems in galaxy evolution.

Published

2019

20. Aeolian sediment transport on Io from lava–frost interactions

Author

George D. McDonald, Joshua Méndez Harper, Lujendra Ojha, Paul Corlies, Josef Dufek, Ryan C. Ewing, and Laura Kerber

Subjects

Science

Abstract

Dunes may form on Jupiter’s moon Io. Despite a tenuous atmosphere, interactions between widespread lava and sulfur dioxide frost may produce vapor flows dense enough to mobilize sand grains. Ridge-like features may be evidence of this phenomenon.

Published

2022

21. Project AMIGA: A Minimal Covering Factor for Optically Thick Circumgalactic Gas Around the Andromeda Galaxy

Author

Howk, J. Christopher, Wotta, Christopher B., Berg, Michelle A., Lehner, Nicolas, Lockman, Felix J., Hafen, Zachary, Pisano, D. J., Faucher-Giguere, Claude-Andre, Wakker, Bart P., Prochaska, J. Xavier, Wolfe, Spencer A., Ribaudo, Joseph, Barger, Kathleen A., Corlies, Lauren, Fox, Andrew J., Guhathakurta, Puragra, Jenkins, Edward B., Kalirai, Jason, O'Meara, John M., Peeples, Molly S., Stewart, Kyle R., and Strader, Jay

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present a deep search for HI 21-cm emission from the gaseous halo of Messier 31 as part of Project AMIGA, a large program Hubble Space Telescope program to study the circumgalactic medium of the Andromeda galaxy. Our observations with the Robert C. Byrd Green Bank Telesope target sight lines to 48 background AGNs, more than half of which have been observed in the ultraviolet with the Cosmic Origins Spectrograph, with impact parameters $25 \lesssim \rho \lesssim 330$ kpc ($0.1 \lesssim \rho / R_{\rm vir} \lesssim 1.1$). We do not detect any 21-cm emission toward these AGNs to limits of $N({\rm HI}) \approx 4 \times10^{17}$ cm$^{-2}$ ($5\sigma$, per 2 kpc diameter beam). This column density corresponds to an optical depth of $\sim2.5$ at the Lyman limit, thus our observations overlap with absorption line studies of Lyman limit systems at higher redshift. Our non-detections place a limit on the covering factor of such optically-thick gas around M31 to $f_c < 0.051$ (at 90\% confidence) for $\rho \leq R_{\rm vir}$. While individual clouds have previously been found in the region between M31 and M33, the covering factor of strongly optically-thick gas is quite small. Our upper limits on the covering factor are consistent with expectations from recent cosmological "zoom" simulations. Recent COS-Halos ultraviolet measurements of \HI\ absorption about an ensemble of galaxies at $z \approx 0.2$ show significantly higher covering factors within $\rho \lesssim 0.5 R_{\rm vir}$ at the same $N({\rm H I})$, although the metal ion-to-H I ratios appear to be consistent with those seen in M31., Comment: Accepted for publication in the ApJ. GBT data and paper products available through https://github.com/jchowk/AMIGA-GBT2017

Published

2017

22. Empirically Constrained Predictions for Metal-Line Emission from the Circumgalactic Medium

Author

Corlies, Lauren and Schiminovich, David

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The circumgalactic medium (CGM) remains one of the least constrained components of galaxies and as such has significant potential for advancing galaxy formation theories. In this work, we vary the extragalactic ultraviolet background for a high-resolution cosmological simulation of a Milky Way-like galaxy and examine the effect on the absorption and emission properties of metals in the CGM. We find that a reduced quasar background brings the column density predictions into better agreement with recent data. Similarly, when the observationally derived physical properties of the gas are compared to the simulation, we find that the simulation gas is always at temperatures approximately 0.5 dex higher. Thus, similar column densities can be produced from fundamentally different gas. However, emission maps can provide complementary information to the line-of-sight column densities to better derive gas properties. From the simulations, we find that the brightest emission is less sensitive to the extragalactic background and that it closely follows the fundamental filamentary structure of the halo. This becomes increasingly true as the galaxy evolves from z=1 to z=0 and the majority of the gas transitions to a hotter, more diffuse phase. For the brightest ions (CIII, CIV, OVI), detectable emission can extend as far as 120 kpc at z=0. Finally, resolution is a limiting factor for the conclusions we can draw from emission observations but with moderate resolution and reasonable detection limits, upcoming instrumentation should place constraints on the physical properties of the CGM., Comment: 24 pages, 14 figures, accepted for publication int he Astrophysical Journal

Published

2016

23. The Atacama Cosmology Telescope: The polarization-sensitive ACTPol instrument

Author

Thornton, R. J., Ade, P. A. R., Aiola, S., Angile, F. E., Amiri, M., Beall, J. A., Becker, D. T., Cho, H-M., Choi, S. K., Corlies, P., Coughlin, K. P., Datta, R., Devlin, M. J., Dicker, S. R., Dunner, R., Fowler, J. W., Fox, A. E., Gallardo, P. A., Gao, J., Grace, E., Halpern, M., Hasselfield, M., Henderson, S. W., Hilton, G. C., Hincks, A. D., Ho, S. P., Hubmayr, J., Irwin, K. D., Klein, J., Koopman, B., Li, Dale, Louis, T., Lungu, M., Maurin, L., McMahon, J., Munson, C. D., Naess, S., Nati, F., Newburgh, L., Nibarger, J., Niemack, M. D., Niraula, P., Nolta, M. R., Page, L. A., Pappas, C. G., Schillaci, A., Schmitt, B. L., Sehgal, N., Sievers, J. L., Simon, S. M., Staggs, S. T., Tucker, C., Uehara, M., van Lanen, J., Ward, J. T., and Wollack, E. J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Atacama Cosmology Telescope (ACT) is designed to make high angular resolution measurements of anisotropies in the Cosmic Microwave Background (CMB) at millimeter wavelengths. We describe ACTPol, an upgraded receiver for ACT, which uses feedhorn-coupled, polarization-sensitive detector arrays, a 3 degree field of view, 100 mK cryogenics with continuous cooling, and meta material anti-reflection coatings. ACTPol comprises three arrays with separate cryogenic optics: two arrays at a central frequency of 148 GHz and one array operating simultaneously at both 97 GHz and 148 GHz. The combined instrument sensitivity, angular resolution, and sky coverage are optimized for measuring angular power spectra, clusters via the thermal Sunyaev-Zel'dovich and kinetic Sunyaev-Zel'dovich signals, and CMB lensing due to large scale structure. The receiver was commissioned with its first 148 GHz array in 2013, observed with both 148 GHz arrays in 2014, and has recently completed its first full season of operations with the full suite of three arrays. This paper provides an overview of the design and initial performance of the receiver and related systems.

Published

2016

24. Role of Cosmic Rays in the Circumgalactic Medium

Author

Salem, Munier, Bryan, Greg L., and Corlies, Lauren

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We explore the impact of cosmic rays (CRs) on cosmological adaptive-mesh refinement simulations of a forming 10^12 Msolar halo, focusing on the circumgalactic medium (CGM), and its resulting low-redshift structure and composition. In contrast to a run with star formation and energetic feedback but no CRs, the CR-inclusive runs feature a CGM substantially enriched with CRs and with metals to roughly 0.1 Zsolar, thanks to robust, persistent outflows from the disk. The CR-inclusive CGMs also feature more diffuse gas at lower temperatures, down to 10^4 K, than the non-CR run, with diffuse material often receiving a majority of its pressure support from the CR proton fluid. We compare to recent observations of the CGM of L ~ L* galaxies at low redshift, including UV absorption lines within background quasar spectra. The combination of metal-enriched, CR-driven winds and large swaths of CR pressure-supported, cooler diffuse gas leads to a CGM that provides a better match to data from COS-Halos (for HI, SiIV, CIII and OVI) than the non-CR run. We also compare our models to recent, preliminary observations of diffuse gamma-ray emission in local group halos. For our lower CR-diffusion runs with kappa_CR in the range 0.3 to 1 x 10^28 cm^2/s, the CR enriched CGM produces an inconsistently high level of gamma emission. But the model with a relatively high kappa_CR = 3 x 10^28 cm^2/s provided a gamma-ray luminosity consistent with the extra-galactic gamma-ray background observed by FERMI and roughly consistent with preliminary measures of the emission from M31's CGM., Comment: 22 pages, 14 figures, MNRAS in press

Published

2015

25. Meridional variation in tropospheric methane on Titan observed with AO spectroscopy at Keck and VLT

Author

Ádámkovics, Máté, Mitchell, Jonathan L., Hayes, Alexander G., Rojo, Patricio M., Corlies, Paul, Barnes, Jason W., Ivanov, Valentin D., Brown, Robert H., Baines, Kevin H., Buratti, Bonnie J., Clark, Roger N., Nicholson, Philip D., and Sotin, Christophe

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The spatial distribution of the tropospheric methane on Titan was measured using near-infrared spectroscopy. Ground-based observations at 1.5$\mu{\rm m}$ (H-band) were performed during the same night using instruments with adaptive optics at both the W. M. Keck Observatory and at the Paranal Observatory on 17 July 2014 UT. The integral field observations with SINFONI on the VLT covered the entire H-band at moderate resolving power, $R=\lambda/\Delta\lambda\approx1,500$, while the Keck observations were performed with NIRSPAO near 1.55254$\mu{\rm m}$ at higher resolution, $R\approx25,000$. The moderate resolution observations are used for flux calibration and for the determination of model parameters that can be degenerate in the interpretation of high resolution spectra. Line-by-line calculations of CH$_4$ and CH$_3$D correlated $k$ distributions from the HITRAN 2012 database were used, which incorporate revised line assignments near 1.5$\mu{\rm m}$. We fit the surface albedo and aerosol distributions in the VLT SINFONI observations that cover the entire H-band window and used these quantities to constrain the models of the high-resolution Keck NIRSPAO spectra when retrieving the methane abundances. Cassini VIMS images of the polar regions, acquired on 20 July 2014 UT, are used to validate the assumption that the opacity of tropospheric aerosol is relatively uniform below 10 km. We retrieved methane abundances at latitudes between 42$^{\circ}$ S and 80$^{\circ}$ N. The tropospheric methane in the Southern mid-latitudes was enhanced by a factor of $\sim$10--40% over the nominal profile that was measured using the GCMS on Huygens. The Northern hemisphere had $\sim$90% of the nominal methane abundance up to polar latitudes (80$^{\circ}$N). These measurements suggest that a source of saturated polar air is equilibrating with dryer conditions at lower latitudes., Comment: Accepted for publication in Icarus on May 22, 2015

Published

2015

26. Chemical Abundance Patterns and the Early Environment of Dwarf Galaxies

Author

Corlies, Lauren, Johnston, Kathryn V., Tumlinson, Jason, and Bryan, Greg

Subjects

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

Abstract

Recent observations suggest that abundance pattern differences exist between low metallicity stars in the Milky Way stellar halo and those in the dwarf satellite galaxies. This paper takes a first look at what role the early environment for pre-galactic star formation might have played in shaping these stellar populations. In particular, we consider whether differences in cross-pollution between the progenitors of the stellar halo and the satellites could help to explain the differences in abundance patterns. Using an N-body simulation, we find that the progenitor halos of the main halo are primarily clustered together at z=10 while the progenitors of the satellite galaxies remain on the outskirts of this cluster. Next, analytically modeled supernova-driven winds show that main halo progenitors cross-pollute each other more effectively while satellite galaxy progenitors remain more isolated. Thus, inhomogeneous cross-pollution as a result of different high-z spatial locations of each system's progenitors can help to explain observed differences in abundance patterns today. Conversely, these differences are a signature of the inhomogeneity of metal enrichment at early times., Comment: 9 pages, 6 figures, accepted by ApJ

Published

2013

27. A Precision Photometric Comparison between SDSS-II and CSP Type Ia Supernova Data

Author

Mosher, J., Sako, M., Corlies, L., Folatelli, G., Frieman, J., Holtzman, J., Jha, S. W., Kessler, R., Marriner, J., Phillips, M. M., Stritzinger, M., Morrell, N., and Schneider, D. P.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Consistency between Carnegie Supernova Project (CSP) and SDSS-II supernova (SN) survey ugri measurements has been evaluated by comparing SDSS and CSP photometry for nine spectroscopically confirmed Type Ia supernova observed contemporaneously by both programs. The CSP data were transformed into the SDSS photometric system. Sources of systematic uncertainty have been identified, quantified, and shown to be at or below the 0.023 magnitude level in all bands. When all photometry for a given band is combined, we find average magnitude differences of equal to or less than 0.011 magnitudes in ugri, with rms scatter ranging from 0.043 to 0.077 magnitudes. The u band agreement is promising, with the caveat that only four of the nine supernovae are well-observed in u and these four exhibit an 0.038 magnitude supernova-to-supernova scatter in this filter., Comment: This paper has been accepted for publication in The Astronomical Journal

Published

2012

28. Contamination control for the Aspera FUV SmallSat

Author

den Herder, Jan-Willem A., Nikzad, Shouleh, Nakazawa, Kazuhiro, Melso, Nicole, Khan, Aafaque, Tanquary, Hannah, Garcia, Elijah, Truong, Daniel, Yescas, Naomi, Park, Sooseong, Uppnor, Sumedha, Vargas, Carlos, Chung, Haeun, Mcmahon, Tom, Hoadley, Keri, Hamden, Erika, Corliss, Jason, Verts, Bill, Agarwal, Simran, Augustin, Ramona, Behroozi, Peter, Bradley, Harrison, Brendel, Trenton, Burchett, Joe, Martinez Castillo, Jasmine, Chambers, Jacob, Choi, Heejoo, Corlies, Lauren, Coronado, Fernando, Davis, Greyson, Dettmar, Ralf-Jürgen, Douglas, Ewan, Ghidoli, Giulia, Goodwin, Alfred, Hamara, Dave, Harris, Walt, Hergenrother, Carl, Howk, J. Christopher, Keppler, Miriam, Kerkeser, Nazende ipek, Kidd, John, Kim, DaeWook, Li, Jessica, Noenickx, Jamison, Noriega, Gabe, Pecha, Ryan, Sauve, Cork, Schiminovich, David, Selznick, Sanford, Siegmund, Oswald, Su, Rebecca, Wolcott, Ellie, and Zaritsky, Dennis

Published

2024

29. Ultraviolet reflective grating performance verification test setup and simulations for the Aspera SmallSat mission

Author

den Herder, Jan-Willem A., Nikzad, Shouleh, Nakazawa, Kazuhiro, Li, Jessica S., Su, Rebecca, Uppnor, Sumedha, Chung, Haeun, Corliss, Jason, Agarwal, Simran, Khan, Aafaque R., Garcia, Elijah, Yescas, Naomi, Truong, Daniel, Vargas, Carlos, Hamden, Erika, Augustin, Ramona, Behroozi, Peter, Burchett, Joe, Choi, Heejoo, Corlies, Lauren, Davis, Greyson, Dettmar, Ralf-Jürgen, Douglas, Ewan, Hergenrother, Carl, Hoadley, Keri, Howk, J. Christopher, Keppler, Miriam, Kim, Daewook, Melso, Nicole, Schiminovich, David, Coronado, Fernando, Ghidoli, Giulia, Goodwin, Alfred, Hamara, Dave, Harris, Walter, Harshman, Karl, Kidd, John, McMahon, Tom, Noenickx, Jamison, Noriega, Gabe, Pecha, Ryan, Sauve, Cork, Selznick, Sanford, Tanquary, Hannah, Verts, Bill, Wolcott, Ellie, and Zaritsky, Dennis

Published

2024

30. The initial design of Maratus: a 12U narrowband imager for mapping the circumgalactic medium

Author

den Herder, Jan-Willem A., Nikzad, Shouleh, Nakazawa, Kazuhiro, Tuttle, Sarah E., Corlies, Lauren, Faerman, Yakov, Fleming, Brian, Hennessy, John, Mandeville, Travis, Mesbahi, Mehran, McPhate, Jason, McQuinn, Matthew, Nikzad, Shouleh, Quijada, Manuel, Quinn, Thomas, Sanchez, N. Nicole, Sanchez-Gallego, Jose, Saenz Otero, Alvar, Sayres, Conor, Wang, Caleb, and Werk, Jessica

Published

2024

31. Optical alignment of contamination-sensitive far-ultraviolet spectrographs for Aspera SmallSat mission

Author

den Herder, Jan-Willem A., Nikzad, Shouleh, Nakazawa, Kazuhiro, Khan, Aafaque R., Hamden, Erika, Chung, Haeun, Choi, Heejoo, Kim, Daewook, Melso, Nicole, Hoadley, Keri, Vargas, Carlos J., Truong, Daniel, Garcia, Elijah, Verts, Bill, Coronado, Fernando, Noenickx, Jamison, Corliss, Jason, Tanquary, Hannah, McMahon, Tom, Hamara, Dave, Agarwal, Simran, Augustin, Ramona, Behroozi, Peter, Bradley, Harrison, Brendel, Trenton, Burchett, Joe, Martinez Castillo, Jasmine, Chambers, Jacob, Corlies, Lauren, Davis, Greyson, Dettmar, Ralf-Jürgen, Douglas, Ewan, Ghidoli, Giulia, Goodwin, Alfred, Harris, Walter, Hergenrother, Carl, Howk, J. Christopher, Keppler, Miriam, Kerkeser, Nazende Ipek, Kidd, John N., Li, Jessica S., Noriega, Gabe, Park, Sooseong, Pecha, Ryan, Sauve, Cork, Schiminovich, David, Selznic, Sanford, Siegmund, Oswald, Su, Rebecca, Uppnor, Sumedha, Vider, Jacob, Wolcott, Ellie, Yescas, Naomi, and Zaritsky, Dennis

Published

2024

32. Development of a data reduction pipeline for the Aspera SmallSat mission

Author

Ibsen, Jorge, Chiozzi, Gianluca, Keppler, Miriam, Chung, Haeun, Khan, Aafaque R., Hergenrother, Carl W., Vargas, Carlos, Chambers, Jacob, Vider, Jacob, Selznick, Sanford, Ghidoli, Giulia, Tanquary, Hannah, Hamden, Erika, Howk, J. Christopher, Agarwal, Simran, Augustin, Ramona, Behroozi, Peter, Burchett, Joe, Choi, Heejoo, Corlies, Lauren, Corliss, Jason, Coronado, Fernando, Davis, Greyson, Dettmar, Ralf-Jürgen, Douglas, Ewan, Garcia, Elijah, Goodwin, Alfred, Hamara, Dave, Harris, Walt, Hoadley, Keri, Kidd, John, Kim, Daewook, Li, Jessica, McMahon, Tom, Melso, Nicole, Noenickx, Jamison, Noriega, Gabe, Pecha, Ryan, Sauve, Cork, Schiminovich, David, Oswald, Siegmund, Truong, Daniel, Uppnor, Sumedha, Verts, Bill, Wollcott, Ellie, Yescas, Naomi, Zaritsky, Dennis, Bradley, Harrison, and Brendel, Trenton

Published

2024

33. Morphological evidence that Titan’s southern hemisphere basins are paleoseas

Author

Birch, S.P.D., Hayes, A.G., Corlies, P., Stofan, E.R., Hofgartner, J.D., Lopes, R.M.C., Lorenz, R.D., Lunine, J.I., MacKenzie, S.M., Malaska, M.J., Wood, C.A., and Team, the Cassini RADAR

Published

2018

34. Correction to: Radiometric Calibration Targets for the Mastcam-Z Camera on the Mars 2020 Rover Mission

Author

Kinch, K. M., Madsen, M. B., Bell, III, J. F., Maki, J. N., Bailey, Z. J., Hayes, A. G., Jensen, O. B., Merusi, M., Bernt, M. H., Sørensen, A. N., Hilverda, M., Cloutis, E., Applin, D., Mateo-Marti, E., Manrique, J. A., Lopez-Reyes, G., Bello-Arufe, A., Ehlmann, B. L., Buz, J., Pommerol, A., Thomas, N., Affolter, L., Herkenhoff, K. E., Johnson, J. R., Rice, M., Corlies, P., Tate, C., Caplinger, M. A., Jensen, E., Kubacki, T., Cisneros, E., Paris, K., and Winhold, A.

Published

2021

35. Pre-Flight Calibration of the Mars 2020 Rover Mastcam Zoom (Mastcam-Z) Multispectral, Stereoscopic Imager

Author

Hayes, Alexander G., Corlies, P., Tate, C., Barrington, M., Bell, J. F., Maki, J. N., Caplinger, M., Ravine, M., Kinch, K. M., Herkenhoff, K., Horgan, B., Johnson, J., Lemmon, M., Paar, G., Rice, M. S., Jensen, E., Kubacki, T. M., Cloutis, E., Deen, R., Ehlmann, B. L., Lakdawalla, E., Sullivan, R., Winhold, A., Parkinson, A., Bailey, Z., van Beek, J., Caballo-Perucha, P., Cisneros, E., Dixon, D., Donaldson, C., Jensen, O. B., Kuik, J., Lapo, K., Magee, A., Merusi, M., Mollerup, J., Scudder, N., Seeger, C., Stanish, E., Starr, M., Thompson, M., Turenne, N., and Winchell, K.

Published

2021

36. The Mars 2020 Perseverance Rover Mast Camera Zoom (Mastcam-Z) Multispectral, Stereoscopic Imaging Investigation

Author

Bell, III, J. F., Maki, J. N., Mehall, G. L., Ravine, M. A., Caplinger, M. A., Bailey, Z. J., Brylow, S., Schaffner, J. A., Kinch, K. M., Madsen, M. B., Winhold, A., Hayes, A. G., Corlies, P., Tate, C., Barrington, M., Cisneros, E., Jensen, E., Paris, K., Crawford, K., Rojas, C., Mehall, L., Joseph, J., Proton, J. B., Cluff, N., Deen, R. G., Betts, B., Cloutis, E., Coates, A. J., Colaprete, A., Edgett, K. S., Ehlmann, B. L., Fagents, S., Grotzinger, J. P., Hardgrove, C., Herkenhoff, K. E., Horgan, B., Jaumann, R., Johnson, J. R., Lemmon, M., Paar, G., Caballo-Perucha, M., Gupta, S., Traxler, C., Preusker, F., Rice, M. S., Robinson, M. S., Schmitz, N., Sullivan, R., and Wolff, M. J.

Published

2021

37. Radiometric Calibration Targets for the Mastcam-Z Camera on the Mars 2020 Rover Mission

Author

Kinch, K. M., Madsen, M. B., Bell, III, J. F., Maki, J. N., Bailey, Z. J., Hayes, A. G., Jensen, O. B., Merusi, M., Bernt, M. H., Sørensen, A. N., Hilverda, M., Cloutis, E., Applin, D., Mateo-Marti, E., Manrique, J. A., Lopez-Reyes, G., Bello-Arufe, A., Ehlmann, B. L., Buz, J., Pommerol, A., Thomas, N., Affolter, L., Herkenhoff, K. E., Johnson, J. R., Rice, M., Corlies, P., Tate, C., Caplinger, M. A., Jensen, E., Kubacki, T., Cisneros, E., Paris, K., and Winhold, A.

Published

2020

38. Quantifying Morphological Changes and Sediment Transport Pathways on Comet 67P/Churyumov‐Gerasimenko

Author

Barrington, M. N., primary, Birch, S. P. D., additional, Jindal, A., additional, Hayes, A. G., additional, Corlies, P., additional, and Vincent, J.‐B., additional

Published

2023

39. Titan as Revealed by the Cassini Radar

Author

Lopes, R. M. C., Wall, S. D., Elachi, C., Birch, S. P. D., Corlies, P., Coustenis, A., Hayes, A. G., Hofgartner, J. D., Janssen, M. A., Kirk, R. L., LeGall, A., Lorenz, R. D., Lunine, J. I., Malaska, M. J., Mastroguiseppe, M., Mitri, G., Neish, C. D., Notarnicola, C., Paganelli, F., Paillou, P., Poggiali, V., Radebaugh, J., Rodriguez, S., Schoenfeld, A., Soderblom, J. M., Solomonidou, A., Stofan, E. R., Stiles, B. W., Tosi, F., Turtle, E. P., West, R. D., Wood, C. A., Zebker, H. A., Barnes, J. W., Casarano, D., Encrenaz, P., Farr, T., Grima, C., Hemingway, D., Karatekin, O., Lucas, A., Mitchell, K. L., Ori, G., Orosei, R., Ries, P., Riccio, D., Soderblom, L. A., and Zhang, Z.

Published

2019

40. MASTCAM-Z IN JEZERO CRATER: OVERVIEW AND STATUS UPDATE

Author

Maki, J., Bell III, James F., Mehall, G., Ravine, M. A., Caplinger, M. A., Saxton, K. N., Kinch, K., Madsen, M.B., Rice, M S, Cisneros, E., Ehlmann, B. L., Hayes, Alex, Horgan, B., Jensen, E., Johnson, J. R., Paris, Kristen, Winhold, A., Betts, Bruce H., Wolff, M.J., Bailey, A., Barrington, M.N., Cloutis, E., Cluff, N., Coates, A., Colaprete, A., Corlies, P, Crawford, K., Deen, R. G., Edgett, K., Fagents, Sarah, Fleron, S.Z., Grotzinger, J. P., Gwinner, Klaus, Hansen, M.D., Hardgrove, C., Herkenhoff, K. E., Jaumann, R., Lemmon, M., Mehall, L., Núnez, Jorge I., Paar, G., Caballo-Perucha, P., Preusker, Frank, Robinson, M.S., Rojas, C., Schmitz, Nicole, Stein, N. T., Sullivan, R., Tate, C., Vaughan, A., Million, Chase, St. Clair, M., Proton, J. B., and Merusi, M.

Subjects

Morphology, Mastcam-Z, Jezero Crater, Multispectral, Mars 2020, Mars, Geology, Perseverance, Imaging

Published

2022

41. Titan Stratospheric Haze Bands Observed in Cassini VIMS as Tracers of Meridional Circulation

Author

Kutsop, N. W., Hayes, A. G., Corlies, P. M., Le Mouelic, S., Lunine, J. I., Nixon, C. A., Rannou, P., Rodriguez, S., Roman, M. T., Sotin, C., Tokano, T., Kutsop, N. W., Hayes, A. G., Corlies, P. M., Le Mouelic, S., Lunine, J. I., Nixon, C. A., Rannou, P., Rodriguez, S., Roman, M. T., Sotin, C., and Tokano, T.

Abstract

We analyzed Cassini data to derive the nature and evolution of circumglobal annuli observed in the stratosphere of Titan, Saturn's largest moon. The annuli were observed between 2004 and 2017 in data acquired by the Visual and Infrared Mapping Spectrometer on board the Cassini spacecraft. We observed a north polar annulus, an equatorial annulus, and several secondary annuli. Pre-Cassini telescopic observations by the Hubble Space Telescope and Keck reported an atmospheric feature consistent with the presence of a south polar annulus between 1999 and 2001, although this feature was not observed by Cassini. Relative to the atmosphere near the annuli, they appear dark at 300-500 nm and bright in methane absorption channels such as the ones at 900 and 1150 nm. The stratosphere seems to rotate around the north pole. Alternatively, it seems to rotate about a point offset from solid-body rotation axis by a few degrees; this point in turn rotates around the solid-body rotation axis.

Published

2022

42. Titan Stratospheric Haze Bands Observed in Cassini VIMS as Tracers of Meridional Circulation

Author

Kutsop, N. W., primary, Hayes, A. G., additional, Corlies, P. M., additional, Le Mouélic, S., additional, Lunine, J. I., additional, Nixon, C. A., additional, Rannou, P., additional, Rodriguez, S., additional, Roman, M. T., additional, Sotin, C., additional, and Tokano, T., additional

Published

2022

43. Anticipated initial results from the NASA Mars 2020 Perseverance Rover Mastcam-Z multispectral, stereoscopic imaging investigation

Author

Bell, J. F., Maki, J.N., Mehall, G., Ravine, M. A., Caplinger, M. A., Saxton, K. N., Kinch, K., Madsen, M.B., Betts, Bruce H., Cisneros, E., Ehlmann, B. L., Hayes, A., Horgan, B., Jensen, E., Johnson, J.R., Paris, K., Rice, M., Winhold, M., Wolff, M.J., Bailey, A., Barrington, M.N., Cloutis, E., Cluff, N., Coates, A. J., Colaprete, A., Corlies, P, Crawford, K., Deen, R., Edgett, K., Fagents, Sarah, Grotzinger, J P, Gwinner, Klaus, Hardgrove, C., Herkenhoff, K., Jaumann, R., Lemmon, M. T., Mehall, L., Nunez, J., Paar, G., Caballo-Perucha, M., Preusker, Frank, Robinson, M. S., Rojas, C., Schmitz, Nicole, Stein, N. T., Sullivan, R., Tate, C., and Vaughan, A.

Subjects

Mastcam-Z, Mars 2020, Mars, Rover, Perseverance, Imaging

Published

2021

44. Fluvial Features on Titan and Earth: Lessons from Planform Images in Low-resolution SAR

Author

Miller, J. W., primary, Birch, S. P. D., additional, Hayes, A. G., additional, Malaska, M. J., additional, Lopes, R. M. C., additional, Schoenfeld, A. M., additional, Corlies, P. M., additional, Burr, D. M., additional, Farr, T. G., additional, and Perron, JT, additional

Published

2021

45. Geomorphologic Evolution of the Imhotep Region of Comet 67P Churyumov-Gerasimenko

Author

Barrington, M.N., Birch, S., Jindal, A., Corlies, P, Hayes, A., and Vincent, J.-B.

Subjects

comet, 67P, surface evolution, Planetengeodäsie

Abstract

We investigated the temporal and spatial evolution of the smooth terrain Imhotep on Comet 67P/ Churyumov-Gerasimenko with the goal of characterizing and quantifying the scales of the geomorphologic processes acting on the comet's surface.

Published

2021

46. Titan as Revealed by the Cassini Radar

Author

Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Lopes, R. M C, Wall, S. D, Elachi, C., Birch, S. P D, Corlies, P., Coustenis, A., Hayes, A. G, Hofgartner, J. D, Janssen, M. A, Kirk, R. L, LeGall, A., Lorenz, R. D, Lunine, J. I, Malaska, M. J, Mastroguiseppe, M., Mitri, G., Neish, C. D, Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences, Lopes, R. M C, Wall, S. D, Elachi, C., Birch, S. P D, Corlies, P., Coustenis, A., Hayes, A. G, Hofgartner, J. D, Janssen, M. A, Kirk, R. L, LeGall, A., Lorenz, R. D, Lunine, J. I, Malaska, M. J, Mastroguiseppe, M., Mitri, G., and Neish, C. D

Abstract

Titan was a mostly unknown world prior to the Cassini spacecraft’s arrival in July 2004. We review the major scientific advances made by Cassini’s Titan Radar Mapper (RADAR) during 13 years of Cassini’s exploration of Saturn and its moons. RADAR measurements revealed Titan’s surface geology, observed lakes and seas of mostly liquid methane in the polar regions, measured the depth of several lakes and seas, detected temporal changes on its surface, and provided key evidence that Titan contains an interior ocean. As a result of the Cassini mission, Titan has gone from an uncharted world to one that exhibits a variety of Earth-like geologic processes and surface-atmosphere interactions. Titan has also joined the ranks of “ocean worlds” along with Enceladus and Europa, which are prime targets for astrobiological research.

Published

2021

47. Pluto’s Haze Abundance and Size Distribution from Limb Scatter Observations by MVIC

Author

Kutsop, N. W., primary, Hayes, A. G., additional, Buratti, B. J., additional, Corlies, P. M., additional, Ennico, K., additional, Fan, S., additional, Gladstone, R., additional, Helfenstein, P., additional, Hofgartner, J. D., additional, Hicks, M., additional, Lemmon, M., additional, Lunine, J. I., additional, Moore, J., additional, Olkin, C. B., additional, Parker, A. H., additional, Stern, S. A., additional, Weaver, H. A., additional, and Young, L. A., additional

Published

2021

48. Radiometric Calibration Targets for the Mastcam-Z Camera on the Mars 2020 Rover Mission

Author

Kinch, K.M, Madsen, M. B., Bell, J.F. III, Maki, Justin, Bailey, Z.J., Hayes, A.G., Jensen, O.B., Merusi, M., Bernt, M.H., Sørensen, A.N., Hilverda, M., Cloutis, E., Applin, D., Mateo-Martí, Eva, Manrique, José Antonio, López-Reyes, G., Bello-Arufe, A., Ehlmann, B.L., Buz, J., Pommerol, A., Thomas, N., Affolter, L., Herkenhoff, K.E., Johnson, J.R., Rice, M., Corlies, P., Tate, C., Caplinger, M.A., Jensen, E., Kubacki, T., Cisneros, E., Paris, K., Winhold, A., Kinch, K.M, Madsen, M. B., Bell, J.F. III, Maki, Justin, Bailey, Z.J., Hayes, A.G., Jensen, O.B., Merusi, M., Bernt, M.H., Sørensen, A.N., Hilverda, M., Cloutis, E., Applin, D., Mateo-Martí, Eva, Manrique, José Antonio, López-Reyes, G., Bello-Arufe, A., Ehlmann, B.L., Buz, J., Pommerol, A., Thomas, N., Affolter, L., Herkenhoff, K.E., Johnson, J.R., Rice, M., Corlies, P., Tate, C., Caplinger, M.A., Jensen, E., Kubacki, T., Cisneros, E., Paris, K., and Winhold, A.

Abstract

The Mastcam-Z Camera is a stereoscopic, multispectral camera with zoom capability on NASA’s Mars-2020 Perseverance rover. The Mastcam-Z relies on a set of two deck-mounted radiometric calibration targets to validate camera performance and to provide an instantaneous estimate of local irradiance and allow conversion of image data to units of reflectance (R or I/F) on a tactical timescale. Here, we describe the heritage, design, and optical characterization of these targets and discuss their use during rover operations. The Mastcam-Z primary calibration target inherits features of camera calibration targets on the Mars Exploration Rovers, Phoenix and Mars Science Laboratory missions. This target will be regularly imaged during flight to accompany multispectral observations of the martian surface. The primary target consists of a gold-plated aluminum base, eight strong hollow-cylinder SmCo alloy permanent magnets mounted in the base, eight ceramic color and grayscale patches mounted over the magnets, four concentric, ceramic grayscale rings and a central aluminum shadow post (gnomon) painted with an IR-black paint. The magnets are expected to keep the central area of each patch relatively free of Martian aeolian dust. The Mastcam-Z secondary calibration target is a simple angled aluminum shelf carrying seven vertically mounted ceramic color and grayscale chips and seven identical, but horizontally mounted ceramic chips. The secondary target is intended to augment and validate the calibration-related information derived from the primary target. The Mastcam-Z radiometric calibration targets are critically important to achieving Mastcam-Z science objectives for spectroscopy and photometric properties.

Published

2020

49. Aspera payload design overview: UV SmallSat mission to detect and map warm-hot halo gas around the nearby galaxies

Author

den Herder, Jan-Willem A., Nikzad, Shouleh, Nakazawa, Kazuhiro, Chung, Haeun, Vargas, Carlos J., Hamden, Erika, McMahon, Tom, Tanquary, Hannah, Khan, Aafaque R., Coronado, Fernando, Verts, Bill, Melso, Nicole, Choi, Heejoo, Agarwal, Simran, Corliss, Jason, Hoadley, Keri, Keppler, Miriam, Hamara, Dave, Garcia, Elijah, Truong, Daniel, Yescas, Naomi, Augustin, Ramona, Batkis, Mateo, Behroozi, Peter, Bradley, Harrison, Brendel, Trenton, Burchett, Joseph N., Martinez Castillo, Jasmine, Chambers, Jacob, Corlies, Lauren, Davis, Greyson, Dettmar, Ralf-Jürgen, Douglas, Ewan, Ghidoli, Giulia, Goodwin, Alfred, Harris, Walter, Hennessy, John J., Hergenrother, Carl, Howk, J. Christopher, Kerkeser, Nazende Ipek, Kidd, John N., Kim, Daewook, Li, Jessica S., Martin, Adrian, Noenickx, Jamison, Noriega, Gabe, Park, Sooseong, Pecha, Ryan, Quijada, Manuel, Rodriguez de Marcos, L., Sauve, Cork, Schiminovich, David, Selznick, Sanford, Siegmund, Oswald, Su, Rebecca, Uppnor, Sumedha, Wolcott, Ellie, and Zaritsky, Dennis

Published

2024

50. THE ATACAMA COSMOLOGY TELESCOPE: The POLARIZATION-SENSITIVE ACTPol INSTRUMENT

Author

Thornton, R, Ade, P, Aiola, S, Angilè, F, Amiri, M, Beall, J, Becker, D, Cho, H, Choi, S, Corlies, P, Coughlin, K, Datta, R, Devlin, M, Dicker, S, Dünner, R, Fowler, J, Fox, A, Gallardo, P, Gao, J, Grace, E, Halpern, M, Hasselfield, M, Henderson, S, Hilton, G, Hincks, A, Ho, S, Hubmayr, J, Irwin, K, Klein, J, Koopman, B, Li, D, Louis, T, Lungu, M, Maurin, L, Mcmahon, J, Munson, C, Naess, S, Nati, F, Newburgh, L, Nibarger, J, Niemack, M, Niraula, P, Nolta, M, Page, L, Pappas, C, Schillaci, A, Schmitt, B, Sehgal, N, Sievers, J, Simon, S, Staggs, S, Tucker, C, Uehara, M, Lanen J., V, Ward, J, Wollack, E, Thornton R.J., Ade P.A.R., Aiola S., Angilè F.E., Amiri M., Beall J.A., Becker D.T., Cho H.-M., Choi S.K., Corlies P., Coughlin K.P., Datta R., Devlin M.J., Dicker S.R., Dünner R., Fowler J.W., Fox A.E., Gallardo P.A., Gao J., Grace E., Halpern M., Hasselfield M., Henderson S.W., Hilton G.C., Hincks A.D., Ho S.P., Hubmayr J., Irwin K.D., Klein J., Koopman B., Li Dale, Louis T., Lungu M., Maurin L., Mcmahon J., Munson C.D., Naess S., Nati F., Newburgh L., Nibarger J., Niemack M.D., Niraula P., Nolta M.R., Page L.A., Pappas C.G., Schillaci A., Schmitt B.L., Sehgal N., Sievers J.L., Simon S.M., Staggs S.T., Tucker C., Uehara M., Lanen J. Van, Ward J.T., Wollack E.J., Thornton, R, Ade, P, Aiola, S, Angilè, F, Amiri, M, Beall, J, Becker, D, Cho, H, Choi, S, Corlies, P, Coughlin, K, Datta, R, Devlin, M, Dicker, S, Dünner, R, Fowler, J, Fox, A, Gallardo, P, Gao, J, Grace, E, Halpern, M, Hasselfield, M, Henderson, S, Hilton, G, Hincks, A, Ho, S, Hubmayr, J, Irwin, K, Klein, J, Koopman, B, Li, D, Louis, T, Lungu, M, Maurin, L, Mcmahon, J, Munson, C, Naess, S, Nati, F, Newburgh, L, Nibarger, J, Niemack, M, Niraula, P, Nolta, M, Page, L, Pappas, C, Schillaci, A, Schmitt, B, Sehgal, N, Sievers, J, Simon, S, Staggs, S, Tucker, C, Uehara, M, Lanen J., V, Ward, J, Wollack, E, Thornton R.J., Ade P.A.R., Aiola S., Angilè F.E., Amiri M., Beall J.A., Becker D.T., Cho H.-M., Choi S.K., Corlies P., Coughlin K.P., Datta R., Devlin M.J., Dicker S.R., Dünner R., Fowler J.W., Fox A.E., Gallardo P.A., Gao J., Grace E., Halpern M., Hasselfield M., Henderson S.W., Hilton G.C., Hincks A.D., Ho S.P., Hubmayr J., Irwin K.D., Klein J., Koopman B., Li Dale, Louis T., Lungu M., Maurin L., Mcmahon J., Munson C.D., Naess S., Nati F., Newburgh L., Nibarger J., Niemack M.D., Niraula P., Nolta M.R., Page L.A., Pappas C.G., Schillaci A., Schmitt B.L., Sehgal N., Sievers J.L., Simon S.M., Staggs S.T., Tucker C., Uehara M., Lanen J. Van, Ward J.T., and Wollack E.J.

Abstract

The Atacama Cosmology Telescope (ACT) makes high angular resolution measurements of anisotropies in the Cosmic Microwave Background (CMB) at millimeter wavelengths. We describe ACTPol, an upgraded receiver for ACT, which uses feedhorn-coupled, polarization-sensitive detector arrays, a 3 field of view, 100 mK cryogenics with continuous cooling, and meta material antireflection coatings. ACTPol comprises three arrays with separate cryogenic optics: two arrays at a central frequency of 148 GHz and one array operating simultaneously at both 97 GHz and 148 GHz. The combined instrument sensitivity, angular resolution, and sky coverage are optimized for measuring angular power spectra, clusters via the thermal Sunyaev-Zel'dovich (SZ) and kinetic SZ signals, and CMB lensing due to large-scale structure. The receiver was commissioned with its first 148 GHz array in 2013, observed with both 148 GHz arrays in 2014, and has recently completed its first full season of operations with the full suite of three arrays. This paper provides an overview of the design and initial performance of the receiver and related systems.

Published

2016