Your search keyword '"Staggs, Suzanne"' showing total 21 results

1. The Atacama Cosmology Telescope: Multi-probe cosmology with unWISE galaxies and ACT DR6 CMB lensing

Author

Farren, Gerrit S., Krolewski, Alex, Qu, Frank J., Ferraro, Simone, Calabrese, Erminia, Dunkley, Jo, Villagra, Carmen Embil, Hill, J. Colin, Kim, Joshua, Madhavacheril, Mathew S., Moodley, Kavilan, Page, Lyman A., Partridge, Bruce, Sehgal, Neelima, Sherwin, Blake D., Sifón, Cristóbal, Staggs, Suzanne T., Van Engelen, Alexander, and Wollack, Edward J.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a joint analysis of the CMB lensing power spectra measured from the Data Release 6 of the Atacama Cosmology Telescope and Planck PR4, cross-correlations between the ACT and Planck lensing reconstruction and galaxy clustering from unWISE, and the unWISE clustering auto-spectrum. We obtain 1.5% constraints on the matter density fluctuations at late times parametrised by the best constrained parameter combination $S_8^{\rm 3x2pt}\equiv\sigma_8 (\Omega_m/0.3)^{0.4}=0.815\pm0.012$. The commonly used $S_8\equiv\sigma_8 (\Omega_m/0.3)^{0.5}$ parameter is constrained to $S_8=0.816\pm0.015$. In combination with baryon acoustic oscillation (BAO) measurements we find $\sigma_8=0.815\pm 0.012$. We also present sound-horizon-independent estimates of the present day Hubble rate of $H_0=66.4^{+3.2}_{-3.7} \,\mathrm{km}\,\mathrm{s}^{-1}\mathrm{Mpc}^{-1}$ from our large scale structure data alone and $H_0=64.3^{+2.1}_{-2.4}\,\mathrm{km}\,\mathrm{s}^{-1}\mathrm{Mpc}^{-1}$ in combination with uncalibrated supernovae from Pantheon+. Using parametric estimates of the evolution of matter density fluctuations, we place constraints on cosmic structure in a range of high redshifts typically inaccessible with cross-correlation analyses. Combining lensing cross- and auto-correlations, we derive a 3.3% constraint on the integrated matter density fluctuations above $z=2.4$, one of the tightest constraints in this redshift range and fully consistent with a $\Lambda$CDM model fit to the primary CMB from Planck. Combining with primary CMB observations and using the extended low redshift coverage of these combined data sets we derive constraints on a variety of extensions to the $\Lambda$CDM model including massive neutrinos, spatial curvature, and dark energy. We find in flat $\Lambda$CDM $\sum m_\nu<0.12$ eV at 95% confidence using the LSS data, BAO measurements from SDSS and primary CMB observations., Comment: 30 pages, 15 figures, to be submitted to PRD, comments welcome

Published

2024

2. Masses of Sunyaev-Zel'dovich Galaxy Clusters Detected by The Atacama Cosmology Telescope: Stacked Lensing Measurements with Subaru HSC Year 3 data

Author

Shirasaki, Masato, Sifón, Cristóbal, Miyatake, Hironao, Lau, Erwin, Zhang, Zhuowen, Bahcall, Neta, Devlin, Mark, Dunkley, Jo, Farahi, Arya, Hilton, Matt, Lin, Yen-Ting, Nagai, Daisuke, Staggs, Suzanne T., Sunayama, Tomomi, Spergel, David, and Wollack, Edward J.

Subjects

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

Abstract

We present a stacked lensing analysis of 96 galaxy clusters selected by the thermal Sunyaev-Zel'dovich (SZ) effect in maps of the cosmic microwave background (CMB). We select foreground galaxy clusters with a $5\sigma$-level SZ threshold in CMB observations from the Atacama Cosmology Telescope, while we define background source galaxies for the lensing analysis with secure photometric redshift cuts in Year 3 data of the Subaru Hyper Suprime Cam survey. We detect the stacked lensing signal in the range of $0.1 < R\, [h^{-1}\mathrm{Mpc}] < 100$ in each of three cluster redshift bins, $0.092

Published

2024

3. Cosmological constraints from the cross-correlation of DESI Luminous Red Galaxies with CMB lensing from Planck PR4 and ACT DR6

Author

Sailer, Noah, Kim, Joshua, Ferraro, Simone, Madhavacheril, Mathew S., White, Martin, Abril-Cabezas, Irene, Aguilar, Jessica Nicole, Ahlen, Steven, Bond, J. Richard, Brooks, David, Burtin, Etienne, Calabrese, Erminia, Chen, Shi-Fan, Choi, Steve K., Claybaugh, Todd, Dawson, Kyle, de la Macorra, Axel, DeRose, Joseph, Dey, Arjun, Dey, Biprateep, Doel, Peter, Dunkley, Jo, Embil-Villagra, Carmen, Farren, Gerrit S., Font-Ribera, Andreu, Forero-Romero, Jaime E., Gaztañaga, Enrique, Gluscevic, Vera, Gontcho, Satya Gontcho A, Honscheid, Klaus, Howlett, Cullan, Juneau, Stephanie, Kirkby, David, Kisner, Theodore, Kremin, Anthony, Landriau, Martin, Guillou, Laurent Le, Levi, Michael, Manera, Marc, Meisner, Aaron, Miquel, Ramon, Moodley, Kavilan, Moustakas, John, Niemack, Michael D., Niz, Gustavo, Palanque-Delabrouille, Nathalie, Percival, Will, Prada, Francisco, Qu, Frank J., Rossi, Graziano, Sanchez, Eusebio, Schaan, Emmanuel, Schlafly, Edward, Schlegel, David, Schubnell, Michael, Sehgal, Neelima, Seo, Hee-Jong, Sherwin, Blake, Sifón, Cristóbal, Sprayberry, David, Staggs, Suzanne T., Tarlé, Gregory, Weaver, Benjamin Alan, Yèche, Christophe, Zhou, Rongpu, and Zou, Hu

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We infer the growth of large scale structure over the redshift range $0.4\lesssim z \lesssim 1$ from the cross-correlation of spectroscopically calibrated Luminous Red Galaxies (LRGs) selected from the Dark Energy Spectroscopic Instrument (DESI) legacy imaging survey with CMB lensing maps reconstructed from the latest Planck and ACT data. We adopt a hybrid effective field theory (HEFT) model that robustly regulates the cosmological information obtainable from smaller scales, such that our cosmological constraints are reliably derived from the (predominantly) linear regime. We perform an extensive set of bandpower- and parameter-level systematics checks to ensure the robustness of our results and to characterize the uniformity of the LRG sample. We demonstrate that our results are stable to a wide range of modeling assumptions, finding excellent agreement with a linear theory analysis performed on a restricted range of scales. From a tomographic analysis of the four LRG photometric redshift bins we find that the rate of structure growth is consistent with $\Lambda$CDM with an overall amplitude that is $\simeq5-7\%$ lower than predicted by primary CMB measurements with modest $(\sim2\sigma)$ statistical significance. From the combined analysis of all four bins and their cross-correlations with Planck we obtain $S_8 = 0.765\pm0.023$, which is less discrepant with primary CMB measurements than previous DESI LRG cross Planck CMB lensing results. From the cross-correlation with ACT we obtain $S_8 = 0.790^{+0.024}_{-0.027}$, while when jointly analyzing Planck and ACT we find $S_8 = 0.775^{+0.019}_{-0.022}$ from our data alone and $\sigma_8 = 0.772^{+0.020}_{-0.023}$ with the addition of BAO data. These constraints are consistent with the latest Planck primary CMB analyses at the $\simeq 1.6-2.2\sigma$ level, and are in excellent agreement with galaxy lensing surveys., Comment: 60 pages, 26 figures, comments welcome

Published

2024

4. The Atacama Cosmology Telescope DR6 and DESI: Structure formation over cosmic time with a measurement of the cross-correlation of CMB Lensing and Luminous Red Galaxies

Author

Kim, Joshua, Sailer, Noah, Madhavacheril, Mathew S., Ferraro, Simone, Abril-Cabezas, Irene, Aguilar, Jessica Nicole, Ahlen, Steven, Bond, J. Richard, Brooks, David, Burtin, Etienne, Calabrese, Erminia, Chen, Shi-Fan, Choi, Steve K., Claybaugh, Todd, Darwish, Omar, de la Macorra, Axel, DeRose, Joseph, Devlin, Mark, Dey, Arjun, Doel, Peter, Dunkley, Jo, Embil-Villagra, Carmen, Farren, Gerrit S., Font-Ribera, Andreu, Forero-Romero, Jaime E., Gaztañaga, Enrique, Gluscevic, Vera, Gontcho, Satya Gontcho A, Guy, Julien, Honscheid, Klaus, Howlett, Cullan, Kirkby, David, Kisner, Theodore, Kremin, Anthony, Landriau, Martin, Guillou, Laurent Le, Levi, Michael E., MacCrann, Niall, Manera, Marc, Marques, Gabriela A., Meisner, Aaron, Miquel, Ramon, Moodley, Kavilan, Moustakas, John, Newburgh, Laura B., Newman, Jeffrey A., Niz, Gustavo, Orlowski-Scherer, John, Palanque-Delabrouille, Nathalie, Percival, Will J., Prada, Francisco, Qu, Frank J., Rossi, Graziano, Sanchez, Eusebio, Schaan, Emmanuel, Schlafly, Edward F., Schlegel, David, Schubnell, Michael, Sehgal, Neelima, Seo, Hee-Jung, Shaikh, Shabbir, Sherwin, Blake D., Sifón, Cristóbal, Sprayberry, David, Staggs, Suzanne T., Tarlé, Gregory, van Engelen, Alexander, Weaver, Benjamin Alan, Wenzl, Lukas, White, Martin, Wollack, Edward J., Yèche, Christophe, and Zou, Hu

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a high-significance cross-correlation of CMB lensing maps from the Atacama Cosmology Telescope (ACT) Data Release 6 (DR6) with spectroscopically calibrated luminous red galaxies (LRGs) from the Dark Energy Spectroscopic Instrument (DESI). We detect this cross-correlation at a significance of 38$\sigma$; combining our measurement with the Planck Public Release 4 (PR4) lensing map, we detect the cross-correlation at 50$\sigma$. Fitting this jointly with the galaxy auto-correlation power spectrum to break the galaxy bias degeneracy with $\sigma_8$, we perform a tomographic analysis in four LRG redshift bins spanning $0.4 \le z \le 1.0$ to constrain the amplitude of matter density fluctuations through the parameter combination $S_8^\times = \sigma_8 \left(\Omega_m / 0.3\right)^{0.4}$. Prior to unblinding, we confirm with extragalactic simulations that foreground biases are negligible and carry out a comprehensive suite of null and consistency tests. Using a hybrid effective field theory (HEFT) model that allows scales as small as $k_{\rm max}=0.6$ $h/{\rm Mpc}$, we obtain a 3.3% constraint on $S_8^\times = \sigma_8 \left(\Omega_m / 0.3\right)^{0.4} = 0.792^{+0.024}_{-0.028}$ from ACT data, as well as constraints on $S_8^\times(z)$ that probe structure formation over cosmic time. Our result is consistent with the early-universe extrapolation from primary CMB anisotropies measured by Planck PR4 within 1.2$\sigma$. Jointly fitting ACT and Planck lensing cross-correlations we obtain a 2.7% constraint of $S_8^\times = 0.776^{+0.019}_{-0.021}$, which is consistent with the Planck early-universe extrapolation within 2.1$\sigma$, with the lowest redshift bin showing the largest difference in mean. The latter may motivate further CMB lensing tomography analyses at $z<0.6$ to assess the impact of potential systematics or the consistency of the $\Lambda$CDM model over cosmic time., Comment: Prepared for submission to JCAP (47 pages, 13 figures)

Published

2024

5. The Simons Observatory: Studies of Detector Yield and Readout Noise From the First Large-Scale Deployment of Microwave Multiplexing at the Large Aperture Telescope

Author

Satterthwaite, Thomas P., Ahmed, Zeeshan, Bae, Kyuyoung, Devlin, Mark, Dicker, Simon, Duff, Shannon M., Dutcher, Daniel, Haridas, Saianeesh K., Henderson, Shawn W., Hubmayr, Johannes, Johnson, Bradley R., Kofman, Anna, Lashner, Jack, Link, Michael J., Lucas, Tammy J., Manduca, Alex, Niemack, Michael D., Orlowski-Scherer, John, Pinsonneault-Marotte, Tristan, Silva-Feaver, Max, Staggs, Suzanne, Vavagiakis, Eve M., Wang, Yuhan, and Zheng, Kaiwen

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Simons Observatory is a new ground-based cosmic microwave background experiment, which is currently being commissioned in Chile's Atacama Desert. During its survey, the observatory's small aperture telescopes will map 10% of the sky in bands centered at frequencies ranging from 27 to 280 GHz to constrain cosmic inflation models, and its large aperture telescope will map 40% of the sky in the same bands to constrain cosmological parameters and use weak lensing to study large-scale structure. To achieve these science goals, the Simons Observatory is deploying these telescopes' receivers with 60,000 state-of-the-art superconducting transition-edge sensor bolometers for its first five year survey. Reading out this unprecedented number of cryogenic sensors, however, required the development of a novel readout system. The SMuRF electronics were developed to enable high-density readout of superconducting sensors using cryogenic microwave SQUID multiplexing technology. The commissioning of the SMuRF systems at the Simons Observatory is the largest deployment to date of microwave multiplexing technology for transition-edge sensors. In this paper, we show that a significant fraction of the systems deployed so far to the Simons Observatory's large aperture telescope meet baseline specifications for detector yield and readout noise in this early phase of commissioning., Comment: 10 pages, 5 figures, 1 table. To be presented at SPIE Astronomical Telescopes + Instrumentation 2024

Published

2024

6. The Atacama Cosmology Telescope: Reionization kSZ trispectrum methodology and limits

Author

MacCrann, Niall, Qu, Frank J., Namikawa, Toshiya, Bolliet, Boris, Cai, Hongbo, Calabrese, Erminia, Choi, Steve K., Darwish, Omar, Ferraro, Simone, Guan, Yilun, Hill, J. Colin, Hilton, Matt, Hložek, Renée, Kramer, Darby, Madhavacheril, Mathew S., Moodley, Kavilan, Sehgal, Neelima, Sherwin, Blake D., Sifón, Cristóbal, Staggs, Suzanne T., Trac, Hy, Van Engelen, Alexander, and Vavagiakis, Eve M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Patchy reionization generates kinematic Sunyaev-Zeldovich (kSZ) anisotropies in the cosmic microwave background (CMB). Large-scale velocity perturbations along the line of sight modulate the small-scale kSZ power spectrum, leading to a trispectrum (or four-point function) in the CMB that depends on the physics of reionization. We investigate the challenges in detecting this trispectrum and use tools developed for CMB lensing, such as realization-dependent bias subtraction and cross-correlation based estimators, to counter uncertainties in the instrumental noise and assumed CMB power spectrum. We also find that both lensing and extragalactic foregrounds can impart larger trispectrum contributions than the reionization kSZ signal. We present a range of mitigation methods for both of these sources of contamination, validated on microwave-sky simulations. We use ACT DR6 and Planck data to calculate an upper limit on the reionization kSZ trispectrum from a measurement dominated by foregrounds. The upper limit is about 50 times the signal predicted from recent simulations., Comment: Measurements and covariances will be made public upon publication

Published

2024

7. The Atacama Cosmology Telescope: Cosmology from Cross-correlations of unWISE Galaxies and ACT DR6 CMB Lensing

Author

Farren, Gerrit S, Krolewski, Alex, MacCrann, Niall, Ferraro, Simone, Abril-Cabezas, Irene, An, Rui, Atkins, Zachary, Battaglia, Nicholas, Bond, J Richard, Calabrese, Erminia, Choi, Steve K, Darwish, Omar, Devlin, Mark J, Duivenvoorden, Adriaan J, Dunkley, Jo, Hill, J Colin, Hilton, Matt, Huffenberger, Kevin M, Kim, Joshua, Louis, Thibaut, Madhavacheril, Mathew S, Marques, Gabriela A, McMahon, Jeff, Moodley, Kavilan, Page, Lyman A, Partridge, Bruce, Qu, Frank J, Schaan, Emmanuel, Sehgal, Neelima, Sherwin, Blake D, Sifón, Cristóbal, Staggs, Suzanne T, Van Engelen, Alexander, Vargas, Cristian, Wenzl, Lukas, White, Martin, and Wollack, Edward J

Subjects

Particle and High Energy Physics, Physical Sciences, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics, Astronomical sciences, Particle and high energy physics, Space sciences

Abstract

We present tomographic measurements of structure growth using cross-correlations of Atacama Cosmology Telescope (ACT) DR6 and Planck cosmic microwave background (CMB) lensing maps with the unWISE Blue and Green galaxy samples, which span the redshift ranges 0.2 ≲ z ≲ 1.1 and 0.3 ≲ z ≲ 1.8, respectively. We improve on prior unWISE cross-correlations not just by making use of the new, high-precision ACT DR6 lensing maps, but also by including additional spectroscopic data for redshift calibration and by analyzing our measurements with a more flexible theoretical model. We determine the amplitude of matter fluctuations at low redshifts (z ≃ 0.2-1.6), finding S 8 ≡ σ 8 ( Ω m / 0.3 ) 0.5 = 0.813 ± 0.021 using the ACT cross-correlation alone and S 8 = 0.810 ± 0.015 with a combination of Planck and ACT cross-correlations; these measurements are fully consistent with the predictions from primary CMB measurements assuming standard structure growth. The addition of baryon acoustic oscillation data breaks the degeneracy between σ 8 and Ωm , allowing us to measure σ 8 = 0.813 ± 0.020 from the cross-correlation of unWISE with ACT and σ 8 = 0.813 ± 0.015 from the combination of cross-correlations with ACT and Planck. These results also agree with the expectations from primary CMB extrapolations in ΛCDM cosmology; the consistency of σ 8 derived from our two redshift samples at z ∼ 0.6 and 1.1 provides a further check of our cosmological model. Our results suggest that structure formation on linear scales is well described by ΛCDM even down to low redshifts z ≲ 1.

Published

2024

8. The Simons Observatory: Production-level Fabrication of the Mid- and Ultra-High-Frequency Wafers

Author

Duff, Shannon M., Austermann, Jason, Beall, James A., Daniel, David P., Hubmayr, Johannes, Jaehnig, Greg C., Johnson, Bradley R., Jones, Dante, Link, Michael J., Lucas, Tammy J., Sonka, Rita F., Staggs, Suzanne T., Ullom, Joel, and Wang, Yuhan

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Simons Observatory (SO) is a cosmic microwave background instrumentation suite in the Atacama Desert of Chile. More than 65,000 polarization-sensitive transition-edge sensor (TES) bolometers will be fielded in the frequency range spanning 27 to 280 GHz, with three separate dichroic designs. The mid-frequency 90/150 GHz and ultra-high-frequency 220/280 GHz detector arrays, fabricated at NIST, account for 39 of 49 total detector modules and implement the feedhorn-fed orthomode transducer (OMT)-coupled TES bolometer architecture. A robust production-level fabrication framework for these detector arrays and the monolithic DC/RF routing wafers has been developed, which includes single device prototyping, process monitoring techniques, in-process metrology, and cryogenic measurements of critical film properties. Application of this framework has resulted in timely delivery of nearly 100 total superconducting focal plane components to SO with 88% of detector wafers meeting nominal criteria for integration into a detector module: a channel yield > 95% and Tc in the targeted range., Comment: 10 pages, 6 figures. Proceedings of the 20th International Conference on Low Temperature Detectors (LTD20). Submitted to JLTP

Published

2024

9. Optical modeling of systematic uncertainties in detector polarization angles for the Atacama Cosmology Telescope

Author

Murphy, Colin C., Choi, Steve K., Datta, Rahul, Devlin, Mark J., Hasselfield, Matthew, Koopman, Brian J., McMahon, Jeff, Naess, Sigurd, Niemack, Michael D., Page, Lyman A., Staggs, Suzanne T., Thornton, Robert, and Wollack, Edward J.

Subjects

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

Abstract

We present an estimate of the Atacama Cosmology Telescope (ACT) detector polarization angle systematic uncertainty from optics perturbation analysis using polarization-sensitive ray tracing in CODE V optical design software. Uncertainties in polarization angle calibration in CMB measurements can limit constraints on cosmic birefringence and other cosmological parameters sensitive to polarization leakage. Our framework estimates the angle calibration systematic uncertainties from possible displacements in lens positions and orientations, and anti-reflection coating (ARC) thicknesses and refractive indices. With millimeter displacements in lens positions and percent-level perturbations in ARC thicknesses and indices from design, we find the total systematic uncertainty for three ACT detector arrays operating between 90--220 GHz to be at the tenth of degree scale. Reduced lens position and orientation uncertainties from physical measurements could lead to a reduction in the systematic uncertainty estimated with the framework presented here. This optical modeling may inform polarization angle systematic uncertainties for current and future microwave polarimeters, such as the CCAT Observatory, Simons Observatory, and CMB-S4., Comment: 14 pages, 8 figures, version accepted for publication in Applied Optics

Published

2024

10. The Atacama Cosmology Telescope: Detection of Patchy Screening of the Cosmic Microwave Background

Author

Coulton, William R., Schutt, Theo, Maniyar, Abhishek S., Schaan, Emmanuel, An, Rui, Atkins, Zachary, Battaglia, Nicholas, Bond, J Richard, Calabrese, Erminia, Choi, Steve K., Devlin, Mark J., Duivenvoorden, Adriaan J., Dunkley, Jo, Ferraro, Simone, Gluscevic, Vera, Hill, J. Colin, Hilton, Matt, Hincks, Adam D., Kosowsky, Arthur, Kramer, Darby, Kusiak, Aleksandra, La Posta, Adrien, Louis, Thibaut, Madhavacheril, Mathew S., Marques, Gabriela A., McCarthy, Fiona, McMahon, Jeff, Moodley, Kavilan, Naess, Sigurd, Page, Lyman A., Partridge, Bruce, Qu, Frank J., Sehgal, Neelima, Sherwin, Blake D., Sifón, Cristóbal, Spergel, David N., Staggs, Suzanne T., Van Engelen, Alexander, Vargas, Cristian, and Wollack, Edward J.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Spatial variations in the cosmic electron density after reionization generate cosmic microwave background anisotropies via Thomson scattering, a process known as the ``patchy screening" effect. In this paper, we propose a new estimator for the patchy screening effect that is designed to mitigate biases from the dominant foreground signals. We use it to measure the cross-correlation between \textit{unWISE} galaxies and patchy screening, the latter measured by the Atacama Cosmology Telescope and \textit{Planck} satellite. We report the first detection of the patchy screening effect, with the statistical significance of the cross-correlation exceeding $7\sigma$. This measurement directly probes the distribution of electrons around these galaxies and provides strong evidence that gas is more extended than the underlying dark matter. By comparing our measurements to electron profiles extracted from simulations, we demonstrate the power of these observations to constrain galaxy evolution models. Requiring only the 2D positions of objects and no individual redshifts or velocity estimates, this approach is complementary to existing gas probes, such as those based on the kinetic Sunyaev-Zeldovich effect., Comment: See Schutt et al for a detailed comparison of patchy screening estimators. 17 pages with 8 figures

Published

2024

11. Qualification of Microwave SQUID Multiplexer Chips for Simons Observatory

Author

Jones, Dante, Singh, Robinjeet, Austermann, Jason, Beall, J. A., Daniel, David, Duff, Shannon M., Dutcher, Daniel, Groh, John, Hubmayr, Johannes, Johnson, Bradley R., Lew, Richard, Link, Michael J., Lucas, Tammy J., Mates, John A. B., Staggs, Suzanne, Ullom, Joel, Vale, Leila, Van Lanen, Jeffery, Vissers, Michael, and Wang, Yuhan

Published

2024

12. Design of Large Low Noise Transition Edge Sensor Arrays for Future FIR Space Missions

Author

Staguhn, Johannes, Sharp, Elmer, Brown, Ari, Devasia, Archana, Doriese, William, Durkin, Malcolm, Fixsen, Dale, Staggs, Suzanne, Colazo Petit, Felipe, Denis, Kevin, DiPirro, Mike, Duff, Shannon, Glenn, Jason, Harrop, Bert, Maher, Stephen, Mikula, Vilem, Nagler, Peter, and Wollack, Edward

Published

2024

13. The Simons Observatory: Large-Scale Characterization of 90/150 GHz TES Detector Modules

Author

Dutcher, Daniel, Duff, Shannon M., Groh, John C., Healy, Erin, Hubmayr, Johannes, Johnson, Bradley R., Jones, Dante, Keller, Ben, Lin, Lawrence T., Link, Michael J., Lucas, Tammy J., Morgan, Samuel, Seino, Yudai, Sonka, Rita F., Staggs, Suzanne T., Wang, Yuhan, and Zheng, Kaiwen

Published

2024

14. The Atacama Cosmology Telescope: Millimeter Observations of a Population of Asteroids or: ACTeroids

Author

Orlowski-Scherer, John, primary, Venterea, Ricco C., additional, Battaglia, Nicholas, additional, Naess, Sigurd, additional, Bhandarkar, Tanay, additional, Biermann, Emily, additional, Calabrese, Erminia, additional, Devlin, Mark, additional, Dunkley, Jo, additional, Hervías-Caimapo, Carlos, additional, Gallardo, Patricio A., additional, Hilton, Matt, additional, Hincks, Adam D., additional, Knowles, Kenda, additional, Li, Yaqiong, additional, McMahon, Jeffrey J, additional, Niemack, Michael D., additional, Page, Lyman A., additional, Partridge, Bruce, additional, Salatino, Maria, additional, Sievers, Jonathan, additional, Sifón, Cristóbal, additional, Staggs, Suzanne, additional, van Engelen, Alexander, additional, Vargas, Cristian, additional, Vavagiakis, Eve M., additional, and Wollack, Edward J., additional

Published

2024

15. Atacama Cosmology Telescope: High-resolution component-separated maps across one third of the sky

Author

Coulton, William, primary, Madhavacheril, Mathew S., additional, Duivenvoorden, Adriaan J., additional, Hill, J. Colin, additional, Abril-Cabezas, Irene, additional, Ade, Peter A. R., additional, Aiola, Simone, additional, Alford, Tommy, additional, Amiri, Mandana, additional, Amodeo, Stefania, additional, An, Rui, additional, Atkins, Zachary, additional, Austermann, Jason E., additional, Battaglia, Nicholas, additional, Battistelli, Elia Stefano, additional, Beall, James A., additional, Bean, Rachel, additional, Beringue, Benjamin, additional, Bhandarkar, Tanay, additional, Biermann, Emily, additional, Bolliet, Boris, additional, Bond, J. Richard, additional, Cai, Hongbo, additional, Calabrese, Erminia, additional, Calafut, Victoria, additional, Capalbo, Valentina, additional, Carrero, Felipe, additional, Chesmore, Grace E., additional, Cho, Hsiao-mei, additional, Choi, Steve K., additional, Clark, Susan E., additional, Rosado, Rodrigo Córdova, additional, Cothard, Nicholas F., additional, Coughlin, Kevin, additional, Crowley, Kevin T., additional, Devlin, Mark J., additional, Dicker, Simon, additional, Doze, Peter, additional, Duell, Cody J., additional, Duff, Shannon M., additional, Dunkley, Jo, additional, Dünner, Rolando, additional, Fanfani, Valentina, additional, Fankhanel, Max, additional, Farren, Gerrit, additional, Ferraro, Simone, additional, Freundt, Rodrigo, additional, Fuzia, Brittany, additional, Gallardo, Patricio A., additional, Garrido, Xavier, additional, Givans, Jahmour, additional, Gluscevic, Vera, additional, Golec, Joseph E., additional, Guan, Yilun, additional, Halpern, Mark, additional, Han, Dongwon, additional, Hasselfield, Matthew, additional, Healy, Erin, additional, Henderson, Shawn, additional, Hensley, Brandon, additional, Hervías-Caimapo, Carlos, additional, Hilton, Gene C., additional, Hilton, Matt, additional, Hincks, Adam D., additional, Hložek, Renée, additional, Ho, Shuay-Pwu Patty, additional, Huber, Zachary B., additional, Hubmayr, Johannes, additional, Huffenberger, Kevin M., additional, Hughes, John P., additional, Irwin, Kent, additional, Isopi, Giovanni, additional, Jense, Hidde T., additional, Keller, Ben, additional, Kim, Joshua, additional, Knowles, Kenda, additional, Koopman, Brian J., additional, Kosowsky, Arthur, additional, Kramer, Darby, additional, Kusiak, Aleksandra, additional, La Posta, Adrien, additional, Lakey, Victoria, additional, Lee, Eunseong, additional, Li, Zack, additional, Li, Yaqiong, additional, Limon, Michele, additional, Lokken, Martine, additional, Louis, Thibaut, additional, Lungu, Marius, additional, MacCrann, Niall, additional, MacInnis, Amanda, additional, Maldonado, Diego, additional, Maldonado, Felipe, additional, Mallaby-Kay, Maya, additional, Marques, Gabriela A., additional, van Marrewijk, Joshiwa, additional, McCarthy, Fiona, additional, McMahon, Jeff, additional, Mehta, Yogesh, additional, Menanteau, Felipe, additional, Moodley, Kavilan, additional, Morris, Thomas W., additional, Mroczkowski, Tony, additional, Naess, Sigurd, additional, Namikawa, Toshiya, additional, Nati, Federico, additional, Newburgh, Laura, additional, Nicola, Andrina, additional, Niemack, Michael D., additional, Nolta, Michael R., additional, Orlowski-Scherer, John, additional, Page, Lyman A., additional, Pandey, Shivam, additional, Partridge, Bruce, additional, Prince, Heather, additional, Puddu, Roberto, additional, Qu, Frank J., additional, Radiconi, Federico, additional, Robertson, Naomi, additional, Rojas, Felipe, additional, Sakuma, Tai, additional, Salatino, Maria, additional, Schaan, Emmanuel, additional, Schmitt, Benjamin L., additional, Sehgal, Neelima, additional, Shaikh, Shabbir, additional, Sherwin, Blake D., additional, Sierra, Carlos, additional, Sievers, Jon, additional, Sifón, Cristóbal, additional, Simon, Sara, additional, Sonka, Rita, additional, Spergel, David N., additional, Staggs, Suzanne T., additional, Storer, Emilie, additional, Switzer, Eric R., additional, Tampier, Niklas, additional, Thornton, Robert, additional, Trac, Hy, additional, Treu, Jesse, additional, Tucker, Carole, additional, Ullom, Joel, additional, Vale, Leila R., additional, Van Engelen, Alexander, additional, Van Lanen, Jeff, additional, Vargas, Cristian, additional, Vavagiakis, Eve M., additional, Wagoner, Kasey, additional, Wang, Yuhan, additional, Wenzl, Lukas, additional, Wollack, Edward J., additional, Xu, Zhilei, additional, Zago, Fernando, additional, and Zheng, Kaiwen, additional

Published

2024

16. The Atacama cosmology telescope: flux upper limits from a targeted search for extragalactic transients

Author

Hervías-Caimapo, Carlos, primary, Naess, Sigurd, additional, Hincks, Adam D, additional, Calabrese, Erminia, additional, Devlin, Mark J, additional, Dunkley, Jo, additional, Dünner, Rolando, additional, Gallardo, Patricio A, additional, Hilton, Matt, additional, Ho, Anna Y Q, additional, Huffenberger, Kevin M, additional, Ma, Xiaoyi, additional, Madhavacheril, Mathew S, additional, Niemack, Michael D, additional, Orlowski-Scherer, John, additional, Page, Lyman A, additional, Partridge, Bruce, additional, Puddu, Roberto, additional, Salatino, Maria, additional, Sifón, Cristóbal, additional, Staggs, Suzanne T, additional, Vargas, Cristian, additional, Vavagiakis, Eve M, additional, and Wollack, Edward J, additional

Published

2024

17. The Atacama Cosmology Telescope: DR6 Gravitational Lensing Map and Cosmological Parameters

Author

Madhavacheril, Mathew S., primary, Qu, Frank J., additional, Sherwin, Blake D., additional, MacCrann, Niall, additional, Li, Yaqiong, additional, Abril-Cabezas, Irene, additional, Ade, Peter A. R., additional, Aiola, Simone, additional, Alford, Tommy, additional, Amiri, Mandana, additional, Amodeo, Stefania, additional, An, Rui, additional, Atkins, Zachary, additional, Austermann, Jason E., additional, Battaglia, Nicholas, additional, Battistelli, Elia Stefano, additional, Beall, James A., additional, Bean, Rachel, additional, Beringue, Benjamin, additional, Bhandarkar, Tanay, additional, Biermann, Emily, additional, Bolliet, Boris, additional, Bond, J Richard, additional, Cai, Hongbo, additional, Calabrese, Erminia, additional, Calafut, Victoria, additional, Capalbo, Valentina, additional, Carrero, Felipe, additional, Challinor, Anthony, additional, Chesmore, Grace E., additional, Cho, Hsiao-mei, additional, Choi, Steve K., additional, Clark, Susan E., additional, Rosado, Rodrigo Córdova, additional, Cothard, Nicholas F., additional, Coughlin, Kevin, additional, Coulton, William, additional, Crowley, Kevin T., additional, Dalal, Roohi, additional, Darwish, Omar, additional, Devlin, Mark J., additional, Dicker, Simon, additional, Doze, Peter, additional, Duell, Cody J., additional, Duff, Shannon M., additional, Duivenvoorden, Adriaan J., additional, Dunkley, Jo, additional, Dünner, Rolando, additional, Fanfani, Valentina, additional, Fankhanel, Max, additional, Farren, Gerrit, additional, Ferraro, Simone, additional, Freundt, Rodrigo, additional, Fuzia, Brittany, additional, Gallardo, Patricio A., additional, Garrido, Xavier, additional, Givans, Jahmour, additional, Gluscevic, Vera, additional, Golec, Joseph E., additional, Guan, Yilun, additional, Hall, Kirsten R., additional, Halpern, Mark, additional, Han, Dongwon, additional, Harrison, Ian, additional, Hasselfield, Matthew, additional, Healy, Erin, additional, Henderson, Shawn, additional, Hensley, Brandon, additional, Hervías-Caimapo, Carlos, additional, Hill, J. Colin, additional, Hilton, Gene C., additional, Hilton, Matt, additional, Hincks, Adam D., additional, Hložek, Renée, additional, Ho, Shuay-Pwu Patty, additional, Huber, Zachary B., additional, Hubmayr, Johannes, additional, Huffenberger, Kevin M., additional, Hughes, John P., additional, Irwin, Kent, additional, Isopi, Giovanni, additional, Jense, Hidde T., additional, Keller, Ben, additional, Kim, Joshua, additional, Knowles, Kenda, additional, Koopman, Brian J., additional, Kosowsky, Arthur, additional, Kramer, Darby, additional, Kusiak, Aleksandra, additional, La Posta, Adrien, additional, Lague, Alex, additional, Lakey, Victoria, additional, Lee, Eunseong, additional, Li, Zack, additional, Limon, Michele, additional, Lokken, Martine, additional, Louis, Thibaut, additional, Lungu, Marius, additional, MacInnis, Amanda, additional, Maldonado, Diego, additional, Maldonado, Felipe, additional, Mallaby-Kay, Maya, additional, Marques, Gabriela A., additional, McMahon, Jeff, additional, Mehta, Yogesh, additional, Menanteau, Felipe, additional, Moodley, Kavilan, additional, Morris, Thomas W., additional, Mroczkowski, Tony, additional, Naess, Sigurd, additional, Namikawa, Toshiya, additional, Nati, Federico, additional, Newburgh, Laura, additional, Nicola, Andrina, additional, Niemack, Michael D., additional, Nolta, Michael R., additional, Orlowski-Scherer, John, additional, Page, Lyman A., additional, Pandey, Shivam, additional, Partridge, Bruce, additional, Prince, Heather, additional, Puddu, Roberto, additional, Radiconi, Federico, additional, Robertson, Naomi, additional, Rojas, Felipe, additional, Sakuma, Tai, additional, Salatino, Maria, additional, Schaan, Emmanuel, additional, Schmitt, Benjamin L., additional, Sehgal, Neelima, additional, Shaikh, Shabbir, additional, Sierra, Carlos, additional, Sievers, Jon, additional, Sifón, Cristóbal, additional, Simon, Sara, additional, Sonka, Rita, additional, Spergel, David N., additional, Staggs, Suzanne T., additional, Storer, Emilie, additional, Switzer, Eric R., additional, Tampier, Niklas, additional, Thornton, Robert, additional, Trac, Hy, additional, Treu, Jesse, additional, Tucker, Carole, additional, Ullom, Joel, additional, Vale, Leila R., additional, Van Engelen, Alexander, additional, Van Lanen, Jeff, additional, van Marrewijk, Joshiwa, additional, Vargas, Cristian, additional, Vavagiakis, Eve M., additional, Wagoner, Kasey, additional, Wang, Yuhan, additional, Wenzl, Lukas, additional, Wollack, Edward J., additional, Xu, Zhilei, additional, Zago, Fernando, additional, and Zheng, Kaiwen, additional

Published

2024

18. The Atacama Cosmology Telescope: A Measurement of the DR6 CMB Lensing Power Spectrum and Its Implications for Structure Growth

Author

Qu, Frank J., primary, Sherwin, Blake D., additional, Madhavacheril, Mathew S., additional, Han, Dongwon, additional, Crowley, Kevin T., additional, Abril-Cabezas, Irene, additional, Ade, Peter A. R., additional, Aiola, Simone, additional, Alford, Tommy, additional, Amiri, Mandana, additional, Amodeo, Stefania, additional, An, Rui, additional, Atkins, Zachary, additional, Austermann, Jason E., additional, Battaglia, Nicholas, additional, Battistelli, Elia Stefano, additional, Beall, James A., additional, Bean, Rachel, additional, Beringue, Benjamin, additional, Bhandarkar, Tanay, additional, Biermann, Emily, additional, Bolliet, Boris, additional, Bond, J Richard, additional, Cai, Hongbo, additional, Calabrese, Erminia, additional, Calafut, Victoria, additional, Capalbo, Valentina, additional, Carrero, Felipe, additional, Carron, Julien, additional, Challinor, Anthony, additional, Chesmore, Grace E., additional, Cho, Hsiao-mei, additional, Choi, Steve K., additional, Clark, Susan E., additional, Rosado, Rodrigo Córdova, additional, Cothard, Nicholas F., additional, Coughlin, Kevin, additional, Coulton, William, additional, Dalal, Roohi, additional, Darwish, Omar, additional, Devlin, Mark J., additional, Dicker, Simon, additional, Doze, Peter, additional, Duell, Cody J., additional, Duff, Shannon M., additional, Duivenvoorden, Adriaan J., additional, Dunkley, Jo, additional, Dünner, Rolando, additional, Fanfani, Valentina, additional, Fankhanel, Max, additional, Farren, Gerrit, additional, Ferraro, Simone, additional, Freundt, Rodrigo, additional, Fuzia, Brittany, additional, Gallardo, Patricio A., additional, Garrido, Xavier, additional, Gluscevic, Vera, additional, Golec, Joseph E., additional, Guan, Yilun, additional, Halpern, Mark, additional, Harrison, Ian, additional, Hasselfield, Matthew, additional, Healy, Erin, additional, Henderson, Shawn, additional, Hensley, Brandon, additional, Hervías-Caimapo, Carlos, additional, Hill, J. Colin, additional, Hilton, Gene C., additional, Hilton, Matt, additional, Hincks, Adam D., additional, Hložek, Renée, additional, Ho, Shuay-Pwu Patty, additional, Huber, Zachary B., additional, Hubmayr, Johannes, additional, Huffenberger, Kevin M., additional, Hughes, John P., additional, Irwin, Kent, additional, Isopi, Giovanni, additional, Jense, Hidde T., additional, Keller, Ben, additional, Kim, Joshua, additional, Knowles, Kenda, additional, Koopman, Brian J., additional, Kosowsky, Arthur, additional, Kramer, Darby, additional, Kusiak, Aleksandra, additional, La Posta, Adrien, additional, Lague, Alex, additional, Lakey, Victoria, additional, Lee, Eunseong, additional, Li, Zack, additional, Li, Yaqiong, additional, Limon, Michele, additional, Lokken, Martine, additional, Louis, Thibaut, additional, Lungu, Marius, additional, MacCrann, Niall, additional, MacInnis, Amanda, additional, Maldonado, Diego, additional, Maldonado, Felipe, additional, Mallaby-Kay, Maya, additional, Marques, Gabriela A., additional, McMahon, Jeff, additional, Mehta, Yogesh, additional, Menanteau, Felipe, additional, Moodley, Kavilan, additional, Morris, Thomas W., additional, Mroczkowski, Tony, additional, Naess, Sigurd, additional, Namikawa, Toshiya, additional, Nati, Federico, additional, Newburgh, Laura, additional, Nicola, Andrina, additional, Niemack, Michael D., additional, Nolta, Michael R., additional, Orlowski-Scherer, John, additional, Page, Lyman A., additional, Pandey, Shivam, additional, Partridge, Bruce, additional, Prince, Heather, additional, Puddu, Roberto, additional, Radiconi, Federico, additional, Robertson, Naomi, additional, Rojas, Felipe, additional, Sakuma, Tai, additional, Salatino, Maria, additional, Schaan, Emmanuel, additional, Schmitt, Benjamin L., additional, Sehgal, Neelima, additional, Shaikh, Shabbir, additional, Sierra, Carlos, additional, Sievers, Jon, additional, Sifón, Cristóbal, additional, Simon, Sara, additional, Sonka, Rita, additional, Spergel, David N., additional, Staggs, Suzanne T., additional, Storer, Emilie, additional, Switzer, Eric R., additional, Tampier, Niklas, additional, Thornton, Robert, additional, Trac, Hy, additional, Treu, Jesse, additional, Tucker, Carole, additional, Ullom, Joel, additional, Vale, Leila R., additional, Van Engelen, Alexander, additional, Van Lanen, Jeff, additional, van Marrewijk, Joshiwa, additional, Vargas, Cristian, additional, Vavagiakis, Eve M., additional, Wagoner, Kasey, additional, Wang, Yuhan, additional, Wenzl, Lukas, additional, Wollack, Edward J., additional, Xu, Zhilei, additional, Zago, Fernando, additional, and Zheng, Kaiwen, additional

Published

2024

19. The Atacama Cosmology Telescope: Galactic Dust Structure and the Cosmic PAH Background in Cross-correlation with WISE

Author

Córdova Rosado, Rodrigo, primary, Hensley, Brandon S., additional, Clark, Susan E., additional, Duivenvoorden, Adriaan J., additional, Atkins, Zachary, additional, Battistelli, Elia Stefano, additional, Choi, Steve K., additional, Dunkley, Jo, additional, Hervías-Caimapo, Carlos, additional, Li, Zack, additional, Louis, Thibaut, additional, Naess, Sigurd, additional, Page, Lyman A., additional, Partridge, Bruce, additional, Sifón, Cristóbal, additional, Staggs, Suzanne T., additional, Vargas, Cristian, additional, and Wollack, Edward J., additional

Published

2024

20. Transition edge sensor arrays for future FIR space missions

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Staguhn, Johannes, Sharp, Elmer, Brown, Ari, Devasia, Archana, Doriese, William, Durkin, Malcolm, Fixsen, Dale, Staggs, Suzanne, Colazo Petit, Felipe, Denis, Kevin, DiPirro, Mike, Duff, Shannon, Glenn, Jason, Harrop, Bert, Maher, Stephen, Mikula, Vilem, Nagler, Peter, and Wollack, Edward

Published

2024

21. The Simons Observatory: studies of detector yield and readout noise from the first large-scale deployment of microwave multiplexing at the large aperture telescope

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Satterthwaite, Thomas P., Ahmed, Zeeshan, Bae, Kyuyoung, Devlin, Mark, Dicker, Simon, Duff, Shannon M., Dutcher, Daniel, Haridas, Saianeesh K., Henderson, Shawn W., Hubmayr, Johannes, Johnson, Bradley R., Kofman, Anna, Lashner, Jack, Link, Michael J., Lucas, Tammy J., Manduca, Alex, Niemack, Michael D., Orlowski-Scherer, John, Pinsonneault-Marotte, Tristan, Silva-Feaver, Max, Staggs, Suzanne, Vavagiakis, Eve M., Wang, Yuhan, and Zheng, Kaiwen

Published

2024