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1. The Atacama Cosmology Telescope: Delensed Power Spectra and Parameters

Author

Han, Dongwon, Sehgal, Neelima, MacInnis, Amanda, van Engelen, Alexander, Sherwin, Blake D., Madhavacheril, Mathew S., Aiola, Simone, Battaglia, Nicholas, Beall, James A., Becker, Daniel T., Calabrese, Erminia, Choi, Steve K., Darwish, Omar, Denison, Edward V., Devlin, Mark J., Dunkley, Jo, Ferraro, Simone, Fox, Anna E., Hasselfield, Matthew, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hložek, Renée, Hubmayr, Johannes, Hughes, John P., Kosowsky, Arthur, Van Lanen, Jeff, Louis, Thibaut, Moodley, Kavilan, Naess, Sigurd, Namikawa, Toshiya, Nati, Federico, Nibarger, John P., Niemack, Michael D., Page, Lyman A., Partridge, Bruce, Qu, Frank J., Schillaci, Alessandro, Spergel, David N., Staggs, Suzanne, Storer, Emilie, and Wollack, Edward J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology
Abstract

We present LCDM cosmological parameter constraints obtained from delensed microwave background power spectra. Lensing maps from a subset of DR4 data from the Atacama Cosmology Telescope (ACT) are used to undo the lensing effect in ACT spectra observed at 150 and 98 GHz. At 150 GHz, we remove the lensing distortion with an effective efficiency of 30% (TT), 30% (EE), 26% (TE) and 20% (BB); this results in detections of the delensing effect at 8.7 sigma (TT), 5.1 sigma (EE), 2.6 sigma (TE), and 2.4 sigma (BB) significance. The combination of 150 and 98 GHz TT, EE, and TE delensed spectra is well fit by a standard LCDM model. We also measure the shift in best-fit parameters when fitting delensed versus lensed spectra; while this shift does not inform our ability to measure cosmological parameters, it does provide a three-way consistency check among the lensing inferred from the best-fit parameters, the lensing in the CMB power spectrum, and the reconstructed lensing map. This shift is predicted to be zero when fitting with the correct model since both lensed and delensed spectra originate from the same region of sky. Fitting with a LCDM model and marginalizing over foregrounds, we find that the shift in cosmological parameters is consistent with zero. Our results show that gravitational lensing of the microwave background is internally consistent within the framework of the standard cosmological model., Comment: 29 pages, 17 figures, version matches that accepted by JCAP

Published
2020

2. The Atacama Cosmology Telescope: DR5 maps of 18,000 square degrees of the microwave sky from ACT 2008-2018 data

Author

Naess, Sigurd, Aiola, Simone, Austermann, Jason E., Battaglia, Nick, Beall, James A., Becker, Daniel T., Bond, Richard J., Calabrese, Erminia, Choi, Steve K., Cothard, Nicholas F., Crowley, Kevin T., Darwish, Omar, Datta, Rahul, Denison, Edward V., Devlin, Mark, Duell, Cody J., Duff, Shannon M., Duivenvoorden, Adriaan J., Dunkley, Jo, Dünner, Rolando, Fox, Anna E., Gallardo, Patricio A., Halpern, Mark, Han, Dongwon, Hasselfield, Matthew, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hincks, Adam D., Hložek, Renée, Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Huffenberger, Kevin, Hughes, John P., Kosowsky, Arthur B., Louis, Thibaut, Madhavacheril, Mathew S., McMahon, Jeff, Moodley, Kavilan, Nati, Federico, Nibarger, John P., Niemack, Michael D., Page, Lyman, Partridge, Bruce, Salatino, Maria, Schaan, Emmanuel, Schillaci, Alessandro, Schmitt, Benjamin, Sherwin, Blake D., Sehgal, Neelima, Sifón, Cristóbal, Spergel, David, Staggs, Suzanne, Stevens, Jason, Storer, Emilie, Ullom, Joel N., Vale, Leila R., Van Engelen, Alexander, Van Lanen, Jeff, Vavagiakis, Eve M., Wollack, Edward J., and Xu, Zhilei

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

This paper presents a maximum-likelihood algorithm for combining sky maps with disparate sky coverage, angular resolution and spatially varying anisotropic noise into a single map of the sky. We use this to merge hundreds of individual maps covering the 2008-2018 ACT observing seasons, resulting in by far the deepest ACT maps released so far. We also combine the maps with the full Planck maps, resulting in maps that have the best features of both Planck and ACT: Planck's nearly white noise on intermediate and large angular scales and ACT's high-resolution and sensitivity on small angular scales. The maps cover over 18,000 square degrees, nearly half the full sky, at 100, 150 and 220 GHz. They reveal 4,000 optically-confirmed clusters through the Sunyaev Zel'dovich effect (SZ) and 18,500 point source candidates at $> 5\sigma$, the largest single collection of SZ clusters and millimeter wave sources to date. The multi-frequency maps provide millimeter images of nearby galaxies and individual Milky Way nebulae, and even clear detections of several nearby stars. Other anticipated uses of these maps include, for example, thermal SZ and kinematic SZ cluster stacking, CMB cluster lensing and galactic dust science. The method itself has negligible bias. However, due to the preliminary nature of some of the component data sets, we caution that these maps should not be used for precision cosmological analysis. The maps are part of ACT DR5, and are available on LAMBDA at https://lambda.gsfc.nasa.gov/product/act/actpol_prod_table.cfm. There is also a web atlas at https://phy-act1.princeton.edu/public/snaess/actpol/dr5/atlas., Comment: 38 pages, 29 figures, data release on lambda. Published in JCAP

Published
2020
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3. The Atacama Cosmology Telescope: DR4 Maps and Cosmological Parameters

Author

Aiola, Simone, Calabrese, Erminia, Maurin, Loïc, Naess, Sigurd, Schmitt, Benjamin L., Abitbol, Maximilian H., Addison, Graeme E., Ade, Peter A. R., Alonso, David, Amiri, Mandana, Amodeo, Stefania, Angile, Elio, Austermann, Jason E., Baildon, Taylor, Battaglia, Nick, Beall, James A., Bean, Rachel, Becker, Daniel T., Bond, J Richard, Bruno, Sarah Marie, Calafut, Victoria, Campusano, Luis E., Carrero, Felipe, Chesmore, Grace E., Cho, Hsiao-mei, Choi, Steve K., Clark, Susan E., Cothard, Nicholas F., Crichton, Devin, Crowley, Kevin T., Darwish, Omar, Datta, Rahul, Denison, Edward V., Devlin, Mark J., Duell, Cody J., Duff, Shannon M., Duivenvoorden, Adriaan J., Dunkley, Jo, Dünner, Rolando, Essinger-Hileman, Thomas, Fankhanel, Max, Ferraro, Simone, Fox, Anna E., Fuzia, Brittany, Gallardo, Patricio A., Gluscevic, Vera, Golec, Joseph E., Grace, Emily, Gralla, Megan, Guan, Yilun, Hall, Kirsten, Halpern, Mark, Han, Dongwon, Hargrave, Peter, Hasselfield, Matthew, Helton, Jakob M., Henderson, Shawn, Hensley, Brandon, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hincks, Adam D., Hložek, Renée, Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Huffenberger, Kevin M., Hughes, John P., Infante, Leopoldo, Irwin, Kent, Jackson, Rebecca, Klein, Jeff, Knowles, Kenda, Koopman, Brian, Kosowsky, Arthur, Lakey, Victoria, Li, Dale, Li, Yaqiong, Li, Zack, Lokken, Martine, Louis, Thibaut, Lungu, Marius, MacInnis, Amanda, Madhavacheril, Mathew, Maldonado, Felipe, Mallaby-Kay, Maya, Marsden, Danica, McMahon, Jeff, Menanteau, Felipe, Moodley, Kavilan, Morton, Tim, Namikawa, Toshiya, Nati, Federico, Newburgh, Laura, Nibarger, John P., Nicola, Andrina, Niemack, Michael D., Nolta, Michael R., Orlowski-Sherer, John, Page, Lyman A., Pappas, Christine G., Partridge, Bruce, Phakathi, Phumlani, Pisano, Giampaolo, Prince, Heather, Puddu, Roberto, Qu, Frank J., Rivera, Jesus, Robertson, Naomi, Rojas, Felipe, Salatino, Maria, Schaan, Emmanuel, Schillaci, Alessandro, Sehgal, Neelima, Sherwin, Blake D., Sierra, Carlos, Sievers, Jon, Sifon, Cristobal, Sikhosana, Precious, Simon, Sara, Spergel, David N., Staggs, Suzanne T., Stevens, Jason, Storer, Emilie, Sunder, Dhaneshwar D., Switzer, Eric R., Thorne, Ben, Thornton, Robert, Trac, Hy, Treu, Jesse, Tucker, Carole, Vale, Leila R., Van Engelen, Alexander, Van Lanen, Jeff, Vavagiakis, Eve M., Wagoner, Kasey, Wang, Yuhan, Ward, Jonathan T., Wollack, Edward J., Xu, Zhilei, Zago, Fernando, and Zhu, Ningfeng

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We present new arcminute-resolution maps of the Cosmic Microwave Background temperature and polarization anisotropy from the Atacama Cosmology Telescope, using data taken from 2013-2016 at 98 and 150 GHz. The maps cover more than 17,000 deg$^2$, the deepest 600 deg$^2$ with noise levels below 10 $\mu$K-arcmin. We use the power spectrum derived from almost 6,000 deg$^2$ of these maps to constrain cosmology. The ACT data enable a measurement of the angular scale of features in both the divergence-like polarization and the temperature anisotropy, tracing both the velocity and density at last-scattering. From these one can derive the distance to the last-scattering surface and thus infer the local expansion rate, $H_0$. By combining ACT data with large-scale information from WMAP we measure $H_0 = 67.6 \pm 1.1$ km/s/Mpc, at 68% confidence, in excellent agreement with the independently-measured Planck satellite estimate (from ACT alone we find $H_0 = 67.9 \pm 1.5$ km/s/Mpc). The $\Lambda$CDM model provides a good fit to the ACT data, and we find no evidence for deviations: both the spatial curvature, and the departure from the standard lensing signal in the spectrum, are zero to within 1$\sigma$; the number of relativistic species, the primordial Helium fraction, and the running of the spectral index are consistent with $\Lambda$CDM predictions to within $1.5 - 2.2\sigma$. We compare ACT, WMAP, and Planck at the parameter level and find good consistency; we investigate how the constraints on the correlated spectral index and baryon density parameters readjust when adding CMB large-scale information that ACT does not measure. The DR4 products presented here will be publicly released on the NASA Legacy Archive for Microwave Background Data Analysis., Comment: 33 pages, 24 figures, products available on the NASA LAMBDA website, version accepted for publication in JCAP

Published
2020
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4. The Atacama Cosmology Telescope: A Measurement of the Cosmic Microwave Background Power Spectra at 98 and 150 GHz

Author

Choi, Steve K., Hasselfield, Matthew, Ho, Shuay-Pwu Patty, Koopman, Brian, Lungu, Marius, Abitbol, Maximilian H., Addison, Graeme E., Ade, Peter A. R., Aiola, Simone, Alonso, David, Amiri, Mandana, Amodeo, Stefania, Angile, Elio, Austermann, Jason E., Baildon, Taylor, Battaglia, Nick, Beall, James A., Bean, Rachel, Becker, Daniel T., Bond, J Richard, Bruno, Sarah Marie, Calabrese, Erminia, Calafut, Victoria, Campusano, Luis E., Carrero, Felipe, Chesmore, Grace E., Cho, Hsiao-mei, Clark, Susan E., Cothard, Nicholas F., Crichton, Devin, Crowley, Kevin T., Darwish, Omar, Datta, Rahul, Denison, Edward V., Devlin, Mark J., Duell, Cody J., Duff, Shannon M., Duivenvoorden, Adriaan J., Dunkley, Jo, Dünner, Rolando, Essinger-Hileman, Thomas, Fankhanel, Max, Ferraro, Simone, Fox, Anna E., Fuzia, Brittany, Gallardo, Patricio A., Gluscevic, Vera, Golec, Joseph E., Grace, Emily, Gralla, Megan, Guan, Yilun, Hall, Kirsten, Halpern, Mark, Han, Dongwon, Hargrave, Peter, Henderson, Shawn, Hensley, Brandon, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hincks, Adam D., Hložek, Renée, Hubmayr, Johannes, Huffenberger, Kevin M., Hughes, John P., Infante, Leopoldo, Irwin, Kent, Jackson, Rebecca, Klein, Jeff, Knowles, Kenda, Kosowsky, Arthur, Lakey, Victoria, Li, Dale, Li, Yaqiong, Li, Zack, Lokken, Martine, Louis, Thibaut, MacInnis, Amanda, Madhavacheril, Mathew, Maldonado, Felipe, Mallaby-Kay, Maya, Marsden, Danica, Maurin, Loïc, McMahon, Jeff, Menanteau, Felipe, Moodley, Kavilan, Morton, Tim, Naess, Sigurd, Namikawa, Toshiya, Nati, Federico, Newburgh, Laura, Nibarger, John P., Nicola, Andrina, Niemack, Michael D., Nolta, Michael R., Orlowski-Sherer, John, Page, Lyman A., Pappas, Christine G., Partridge, Bruce, Phakathi, Phumlani, Prince, Heather, Puddu, Roberto, Qu, Frank J., Rivera, Jesus, Robertson, Naomi, Rojas, Felipe, Salatino, Maria, Schaan, Emmanuel, Schillaci, Alessandro, Schmitt, Benjamin L., Sehgal, Neelima, Sherwin, Blake D., Sierra, Carlos, Sievers, Jon, Sifon, Cristobal, Sikhosana, Precious, Simon, Sara, Spergel, David N., Staggs, Suzanne T., Stevens, Jason, Storer, Emilie, Sunder, Dhaneshwar D., Switzer, Eric R., Thorne, Ben, Thornton, Robert, Trac, Hy, Treu, Jesse, Tucker, Carole, Vale, Leila R., Van Engelen, Alexander, Van Lanen, Jeff, Vavagiakis, Eve M., Wagoner, Kasey, Wang, Yuhan, Ward, Jonathan T., Wollack, Edward J., Xu, Zhilei, Zago, Fernando, and Zhu, Ningfeng

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We present the temperature and polarization angular power spectra of the CMB measured by the Atacama Cosmology Telescope (ACT) from 5400 deg$^2$ of the 2013-2016 survey, which covers $>$15000 deg$^2$ at 98 and 150 GHz. For this analysis we adopt a blinding strategy to help avoid confirmation bias and, related to this, show numerous checks for systematic error done before unblinding. Using the likelihood for the cosmological analysis we constrain secondary sources of anisotropy and foreground emission, and derive a "CMB-only" spectrum that extends to $\ell=4000$. At large angular scales, foreground emission at 150 GHz is $\sim$1% of TT and EE within our selected regions and consistent with that found by Planck. Using the same likelihood, we obtain the cosmological parameters for $\Lambda$CDM for the ACT data alone with a prior on the optical depth of $\tau=0.065\pm0.015$. $\Lambda$CDM is a good fit. The best-fit model has a reduced $\chi^2$ of 1.07 (PTE=0.07) with $H_0=67.9\pm1.5$ km/s/Mpc. We show that the lensing BB signal is consistent with $\Lambda$CDM and limit the celestial EB polarization angle to $\psi_P =-0.07^{\circ}\pm0.09^{\circ}$. We directly cross correlate ACT with Planck and observe generally good agreement but with some discrepancies in TE. All data on which this analysis is based will be publicly released., Comment: 44 pages, 27 figures, products available on the NASA LAMBDA website, version accepted for publication in JCAP

Published
2020
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5. The Atacama Cosmology Telescope: A CMB lensing mass map over 2100 square degrees of sky and its cross-correlation with BOSS-CMASS galaxies

Author

Darwish, Omar, Madhavacheril, Mathew S., Sherwin, Blake, Aiola, Simone, Battaglia, Nicholas, Beall, James A., Becker, Daniel T., Bond, J. Richard, Calabrese, Erminia, Choi, Steve, Devlin, Mark J., Dunkley, Jo, Dünner, Rolando, Ferraro, Simone, Fox, Anna E., Gallardo, Patricio A., Guan, Yilun, Halpern, Mark, Han, Dongwon, Hasselfield, Matthew, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hincks, Adam D., Ho, Shuay-Pwu Patty, Hubmayr, J., Hughes, John P., Koopman, Brian J., Kosowsky, Arthur, Van Lanen, J., Louis, Thibaut, Lungu, Marius, MacInnis, Amanda, Maurin, Loïc, McMahon, Jeffrey, Moodley, Kavilan, Naess, Sigurd, Namikawa, Toshiya, Newburgh, Laura, Nibarger, John P., Niemack, Micheal D., Page, Lyman A., Partridge, Bruce, Qu, Frank J., Robertson, Naomi, Schmitt, Benjamin, Sehgal, Neelima, Sifón, Cristóbal, Spergel, David N., Staggs, Suzanne, Storer, Emilie, van Engelen, Alexander, and Wollack, Edward J.

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

We construct cosmic microwave background lensing mass maps using data from the 2014 and 2015 seasons of observations with the Atacama Cosmology Telescope (ACT). These maps cover 2100 square degrees of sky and overlap with a wide variety of optical surveys. The maps are signal dominated on large scales and have fidelity such that their correlation with the cosmic infrared background is clearly visible by eye. We also create lensing maps with thermal Sunyaev-Zel'dovich contamination removed using a novel cleaning procedure that only slightly degrades the lensing signal-to-noise ratio. The cross-spectrum between the cleaned lensing map and the BOSS CMASS galaxy sample is detected at $10$-$\sigma$ significance, with an amplitude of $A=1.02 \pm 0.10$ relative to the Planck best-fit LCDM cosmological model with fiducial linear galaxy bias. Our measurement lays the foundation for lensing cross-correlation science with current ACT data and beyond., Comment: 16 pages, 11 figures, lensing map products will be made available on LAMBDA as part of the upcoming ACT data release, v2 corrects author list

Published
2020
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6. The Atacama Cosmology Telescope: Constraints on Cosmic Birefringence

Author

Namikawa, Toshiya, Guan, Yilun, Darwish, Omar, Sherwin, Blake D., Aiola, Simone, Battaglia, Nicholas, Beall, James A., Becker, Daniel T., Bond, J. Richard, Calabrese, Erminia, Chesmore, Grace E., Choi, Steve K., Devlin, Mark J., Dunkley, Joanna, Dünner, Rolando, Fox, Anna E., Gallardo, Patricio A., Gluscevic, Vera, Han, Dongwon, Hasselfield, Matthew, Hilton, Gene C., Hincks, Adam D., Hložek, Renée, Hubmayr, Johannes, Huffenberger, Kevin, Hughes, John P., Koopman, Brian J., Kosowsky, Arthur, Louis, Thibaut, Lungu, Marius, MacInnis, Amanda, Madhavacheril, Mathew S., Mallaby-Kay, Maya, Maurin, Loïc, McMahon, Jeffrey, Moodley, Kavilan, Naess, Sigurd, Nati, Federico, Newburgh, Laura B., Nibarger, John P., Niemack, Michael D., Page, Lyman A., Qu, Frank J., Robertson, Naomi, Schillaci, Alessandro, Sehgal, Neelima, Sifón, Cristóbal, Simon, Sara M., Spergel, David N., Staggs, Suzanne T., Storer, Emilie R., van Engelen, Alexander, van Lanen, Jeff, and Wollack, Edward J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

We present new constraints on anisotropic birefringence of the cosmic microwave background polarization using two seasons of data from the Atacama Cosmology Telescope covering $456$ square degrees of sky. The birefringence power spectrum, measured using a curved-sky quadratic estimator, is consistent with zero. Our results provide the tightest current constraint on birefringence over a range of angular scales between $5$ arcminutes and $9$ degrees. We improve previous upper limits on the amplitude of a scale-invariant birefringence power spectrum by a factor of between $2$ and $3$. Assuming a nearly-massless axion field during inflation, our result is equivalent to a $2\,\sigma$ upper limit on the Chern-Simons coupling constant between axions and photons of $g_{\alpha\gamma}<4.0\times 10^{-2}/H_I$ where $H_I$ is the inflationary Hubble scale., Comment: 18 pages, 3 figures, Accepted for publication in PRD

Published
2020
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7. The Atacama Cosmology Telescope: delensed power spectra and parameters

Author

Han, Dongwon, Sehgal, Neelima, MacInnis, Amanda, van Engelen, Alexander, Sherwin, Blake D, Madhavacheril, Mathew S, Aiola, Simone, Battaglia, Nicholas, Beall, James A, Becker, Daniel T, Calabrese, Erminia, Choi, Steve K, Darwish, Omar, Denison, Edward V, Devlin, Mark J, Dunkley, Jo, Ferraro, Simone, Fox, Anna E, Hasselfield, Matthew, Hill, J Colin, Hilton, Gene C, Hilton, Matt, Hložek, Renée, Hubmayr, Johannes, Hughes, John P, Kosowsky, Arthur, Van Lanen, Jeff, Louis, Thibaut, Moodley, Kavilan, Naess, Sigurd, Namikawa, Toshiya, Nati, Federico, Nibarger, John P, Niemack, Michael D, Page, Lyman A, Partridge, Bruce, Qu, Frank J, Schillaci, Alessandro, Spergel, David N, Staggs, Suzanne, Storer, Emilie, and Wollack, Edward J

Subjects
Particle and High Energy Physics, Physical Sciences, cosmological parameters from CMBR, weak gravitational lensing, astro-ph.CO, hep-ph, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Astronomical sciences, Particle and high energy physics
Abstract

We present ΛCDM cosmological parameter constraints obtained from delensed microwave background power spectra. Lensing maps from a subset of DR4 data from the Atacama Cosmology Telescope (ACT) are used to undo the lensing effect in ACT spectra observed at 150 and 98 GHz. At 150 GHz, we remove the lensing distortion with an effective efficiency of 30% (TT), 30% (EE), 26% (TE) and 20% (BB); this results in detections of the delensing effect at 8.7σ (TT), 5.1σ (EE), 2.6σ (TE), and 2.4σ (BB) significance. The combination of 150 and 98 GHz TT, EE, and TE delensed spectra is well fit by a standard ΛCDM model. We also measure the shift in best-fit parameters when fitting delensed versus lensed spectra; while this shift does not inform our ability to measure cosmological parameters, it does provide a three-way consistency check among the lensing inferred from the best-fit parameters, the lensing in the CMB power spectrum, and the reconstructed lensing map. This shift is predicted to be zero when fitting with the correct model since both lensed and delensed spectra originate from the same region of sky. Fitting with a ΛCDM model and marginalizing over foregrounds, we find that the shift in cosmological parameters is consistent with zero. Our results show that gravitational lensing of the microwave background is internally consistent within the framework of the standard cosmological model.

Published
2021

8. The Atacama Cosmology Telescope: a measurement of the Cosmic Microwave Background power spectra at 98 and 150 GHz

Author

Choi, Steve K, Hasselfield, Matthew, Ho, Shuay-Pwu Patty, Koopman, Brian, Lungu, Marius, Abitbol, Maximilian H, Addison, Graeme E, Ade, Peter AR, Aiola, Simone, Alonso, David, Amiri, Mandana, Amodeo, Stefania, Angile, Elio, Austermann, Jason E, Baildon, Taylor, Battaglia, Nick, Beall, James A, Bean, Rachel, Becker, Daniel T, Bond, J Richard, Bruno, Sarah Marie, Calabrese, Erminia, Calafut, Victoria, Campusano, Luis E, Carrero, Felipe, Chesmore, Grace E, Cho, Hsiao-mei, Clark, Susan E, Cothard, Nicholas F, Crichton, Devin, Crowley, Kevin T, Darwish, Omar, Datta, Rahul, Denison, Edward V, Devlin, Mark J, Duell, Cody J, Duff, Shannon M, Duivenvoorden, Adriaan J, Dunkley, Jo, Dünner, Rolando, Essinger-Hileman, Thomas, Fankhanel, Max, Ferraro, Simone, Fox, Anna E, Fuzia, Brittany, Gallardo, Patricio A, Gluscevic, Vera, Golec, Joseph E, Grace, Emily, Gralla, Megan, Guan, Yilun, Hall, Kirsten, Halpern, Mark, Han, Dongwon, Hargrave, Peter, Henderson, Shawn, Hensley, Brandon, Hill, J Colin, Hilton, Gene C, Hilton, Matt, Hincks, Adam D, Hložek, Renée, Hubmayr, Johannes, Huffenberger, Kevin M, Hughes, John P, Infante, Leopoldo, Irwin, Kent, Jackson, Rebecca, Klein, Jeff, Knowles, Kenda, Kosowsky, Arthur, Lakey, Vincent, Li, Dale, Li, Yaqiong, Li, Zack, Lokken, Martine, Louis, Thibaut, MacInnis, Amanda, Madhavacheril, Mathew, Maldonado, Felipe, Mallaby-Kay, Maya, Marsden, Danica, Maurin, Loïc, McMahon, Jeff, Menanteau, Felipe, Moodley, Kavilan, Morton, Tim, Naess, Sigurd, Namikawa, Toshiya, Nati, Federico, Newburgh, Laura, Nibarger, John P, Nicola, Andrina, Niemack, Michael D, Nolta, Michael R, Orlowski-Sherer, John, Page, Lyman A, Pappas, Christine G, Partridge, Bruce, and Phakathi, Phumlani

Subjects
Particle and High Energy Physics, Physical Sciences, CMBR experiments, CMBR polarisation, cosmological parameters from CMBR, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Astronomical sciences, Particle and high energy physics
Abstract

We present the temperature and polarization angular power spectra of the CMB measured by the Atacama Cosmology Telescope (ACT) from 5400 deg2 of the 2013–2016 survey, which covers >15000 deg2 at 98 and 150 GHz. For this analysis we adopt a blinding strategy to help avoid confirmation bias and, related to this, show numerous checks for systematic error done before unblinding. Using the likelihood for the cosmological analysis we constrain secondary sources of anisotropy and foreground emission, and derive a “CMB-only” spectrum that extends to ` = 4000. At large angular scales, foreground emission at 150 GHz is ∼1% of TT and EE within our selected regions and consistent with that found by Planck. Using the same likelihood, we obtain the cosmological parameters for ΛCDM for the ACT data alone with a prior on the optical depth of τ = 0.065 ± 0.015. ΛCDM is a good fit. The best-fit model has a reduced χ2 of 1.07 (PTE = 0.07) with H0 = 67.9 ± 1.5 km/s/Mpc. We show that the lensing BB signal is consistent with ΛCDM and limit the celestial EB polarization angle to ψP = −0.07◦ ±0.09◦. We directly cross correlate ACT with Planck and observe generally good agreement but with some discrepancies in TE. All data on which this analysis is based will be publicly released.

Published
2020

9. The Atacama Cosmology Telescope: arcminute-resolution maps of 18 000 square degrees of the microwave sky from ACT 2008–2018 data combined with Planck

Author

Naess, Sigurd, Aiola, Simone, Austermann, Jason E, Battaglia, Nick, Beall, James A, Becker, Daniel T, Bond, Richard J, Calabrese, Erminia, Choi, Steve K, Cothard, Nicholas F, Crowley, Kevin T, Darwish, Omar, Datta, Rahul, Denison, Edward V, Devlin, Mark, Duell, Cody J, Duff, Shannon M, Duivenvoorden, Adriaan J, Dunkley, Jo, Dünner, Rolando, Fox, Anna E, Gallardo, Patricio A, Halpern, Mark, Han, Dongwon, Hasselfield, Matthew, Hill, J Colin, Hilton, Gene C, Hilton, Matt, Hincks, Adam D, Hložek, Renée, Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Huffenberger, Kevin, Hughes, John P, Kosowsky, Arthur B, Louis, Thibaut, Madhavacheril, Mathew S, McMahon, Jeff, Moodley, Kavilan, Nati, Federico, Nibarger, John P, Niemack, Michael D, Page, Lyman, Partridge, Bruce, Salatino, Maria, Schaan, Emmanuel, Schillaci, Alessandro, Schmitt, Benjamin, Sherwin, Blake D, Sehgal, Neelima, Sifón, Cristóbal, Spergel, David, Staggs, Suzanne, Stevens, Jason, Storer, Emilie, Ullom, Joel N, Vale, Leila R, Van Engelen, Alexander, Van Lanen, Jeff, Vavagiakis, Eve M, Wollack, Edward J, and Xu, Zhilei

Subjects
Astronomical Sciences, Physical Sciences, CMBR experiments, CMBR polarisation, astro-ph.IM, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Astronomical sciences, Particle and high energy physics
Abstract

This paper presents a maximum-likelihood algorithm for combining sky maps with disparate sky coverage, angular resolution and spatially varying anisotropic noise into a single map of the sky. We use this to merge hundreds of individual maps covering the 2008–2018 ACT observing seasons, resulting in by far the deepest ACT maps released so far. We also combine the maps with the full Planck maps, resulting in maps that have the best features of both Planck and ACT: Planck’s nearly white noise on intermediate and large angular scales and ACT’s high-resolution and sensitivity on small angular scales. The maps cover over 18 000 square degrees, nearly half the full sky, at 100, 150 and 220 GHz. They reveal 4 000 optically-confirmed clusters through the Sunyaev Zel’dovich effect (SZ) and 18 500 point source candidates at > 5σ, the largest single collection of SZ clusters and millimeter wave sources to date. The multi-frequency maps provide millimeter images of nearby galaxies and individual Milky Way nebulae, and even clear detections of several nearby stars. Other anticipated uses of these maps include, for example, thermal SZ and kinematic SZ cluster stacking, CMB cluster lensing and galactic dust science. The method itself has negligible bias. However, due to the preliminary nature of some of the component data sets, we caution that these maps should not be used for precision cosmological analysis. The maps are part of ACT DR5, and will be made available on LAMBDA no later than three months after the journal publication of this article, along with an interactive sky atlas.

Published
2020

10. The Atacama Cosmology Telescope: Two-Season ACTPol Lensing Power Spectrum

Author

Sherwin, Blake D., van Engelen, Alexander, Sehgal, Neelima, Madhavacheril, Mathew, Addison, Graeme E., Aiola, Simone, Allison, Rupert, Battaglia, Nicholas, Beall, James A., Becker, Daniel T., Bond, J. Richard, Calabrese, Erminia, Datta, Rahul, Devlin, Mark J., Dunner, Rolando, Dunkley, Joanna, Fox, Anna E., Gallardo, Patricio, Halpern, Mark, Hasselfield, Matthew, Henderson, Shawn, Hill, J. Colin, Hilton, Gene C., Hubmayr, Johannes, Hughes, John P., Hincks, Adam D., Hlozek, Renee, Huffenberger, Kevin M., Koopman, Brian, Kosowsky, Arthur, Louis, Thibaut, Maurin, Loic, McMahon, Jeff, Moodley, Kavilan, Naess, Sigurd, Nati, Federico, Newburgh, Laura, Niemack, Michael D., Page, Lyman A., Sievers, Jonathan, Spergel, David N., Staggs, Suzanne T., Thornton, Robert J., Van Lanen, Jeff, Vavagiakis, Eve, and Wollack, Edward J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We report a measurement of the power spectrum of cosmic microwave background (CMB) lensing from two seasons of Atacama Cosmology Telescope Polarimeter (ACTPol) CMB data. The CMB lensing power spectrum is extracted from both temperature and polarization data using quadratic estimators. We obtain results that are consistent with the expectation from the best-fit Planck LCDM model over a range of multipoles L=80-2100, with an amplitude of lensing A_lens = 1.06 +/- 0.15 (stat.) +/- 0.06 (sys.) relative to Planck. Our measurement of the CMB lensing power spectrum gives sigma_8 Omega_m^0.25 = 0.643 +/- 0.054; including baryon acoustic oscillation scale data, we constrain the amplitude of density fluctuations to be sigma_8 = 0.831 +/- 0.053. We also update constraints on the neutrino mass sum. We verify our lensing measurement with a number of null tests and systematic checks, finding no evidence of significant systematic errors. This measurement relies on a small fraction of the ACTPol data already taken; more precise lensing results can therefore be expected from the full ACTPol dataset., Comment: 17 pages, 11 figures, to be submitted to Physical Review D

Published
2016
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11. The Atacama Cosmology Telescope: Two-Season ACTPol Spectra and Parameters

Author

Louis, Thibaut, Grace, Emily, Hasselfield, Matthew, Lungu, Marius, Maurin, Loïc, Addison, Graeme E., Ade, Peter A. R., Aiola, Simone, Allison, Rupert, Amiri, Mandana, Angile, Elio, Battaglia, Nicholas, Beall, James A., de Bernardis, Francesco, Bond, J. Richard, Britton, Joe, Calabrese, Erminia, Cho, Hsiao-mei, Choi, Steve K., Coughlin, Kevin, Crichton, Devin, Crowley, Kevin, Datta, Rahul, Devlin, Mark J., Dicker, Simon R., Dunkley, Joanna, Dünner, Rolando, Ferraro, Simone, Fox, Anna E., Gallardo, Patricio, Gralla, Megan, Halpern, Mark, Henderson, Shawn, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hincks, Adam D., Hlozek, Renée, Ho, S. P. Patty, Huang, Zhiqi, Hubmayr, Johannes, Huffenberger, Kevin M., Hughes, John P., Infante, Leopoldo, Irwin, Kent, Kasanda, Simon Muya, Klein, Jeff, Koopman, Brian, Kosowsky, Arthur, Li, Dale, Madhavacheril, Mathew, Marriage, Tobias A., McMahon, Jeff, Menanteau, Felipe, Moodley, Kavilan, Munson, Charles, Naess, Sigurd, Nati, Federico, Newburgh, Laura, Nibarger, John, Niemack, Michael D., Nolta, Michael R., Nuñez, Carolina, Page, Lyman A., Pappas, Christine, Partridge, Bruce, Rojas, Felipe, Schaan, Emmanuel, Schmitt, Benjamin L., Sehgal, Neelima, Sherwin, Blake D., Sievers, Jon, Simon, Sara, Spergel, David N., Staggs, Suzanne T., Switzer, Eric R., Thornton, Robert, Trac, Hy, Treu, Jesse, Tucker, Carole, Van Engelen, Alexander, Ward, Jonathan T., and Wollack, Edward J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We present the temperature and polarization angular power spectra measured by the Atacama Cosmology Telescope Polarimeter (ACTPol). We analyze night-time data collected during 2013-14 using two detector arrays at 149 GHz, from 548 deg$^2$ of sky on the celestial equator. We use these spectra, and the spectra measured with the MBAC camera on ACT from 2008-10, in combination with Planck and WMAP data to estimate cosmological parameters from the temperature, polarization, and temperature-polarization cross-correlations. We find the new ACTPol data to be consistent with the LCDM model. The ACTPol temperature-polarization cross-spectrum now provides stronger constraints on multiple parameters than the ACTPol temperature spectrum, including the baryon density, the acoustic peak angular scale, and the derived Hubble constant. Adding the new data to planck temperature data tightens the limits on damping tail parameters, for example reducing the joint uncertainty on the number of neutrino species and the primordial helium fraction by 20%., Comment: 23 pages, 25 figures

Published
2016
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12. The Atacama Cosmology Telescope: two-season ACTPol spectra and parameters

Author

Louis, Thibaut, Grace, Emily, Hasselfield, Matthew, Lungu, Marius, Maurin, Loïc, Addison, Graeme E, Ade, Peter AR, Aiola, Simone, Allison, Rupert, Amiri, Mandana, Angile, Elio, Battaglia, Nicholas, Beall, James A, de Bernardis, Francesco, Bond, J Richard, Britton, Joe, Calabrese, Erminia, Cho, Hsiao-mei, Choi, Steve K, Coughlin, Kevin, Crichton, Devin, Crowley, Kevin, Datta, Rahul, Devlin, Mark J, Dicker, Simon R, Dunkley, Joanna, Dünner, Rolando, Ferraro, Simone, Fox, Anna E, Gallardo, Patricio, Gralla, Megan, Halpern, Mark, Henderson, Shawn, Hill, J Colin, Hilton, Gene C, Hilton, Matt, Hincks, Adam D, Hlozek, Renée, Ho, SP Patty, Huang, Zhiqi, Hubmayr, Johannes, Huffenberger, Kevin M, Hughes, John P, Infante, Leopoldo, Irwin, Kent, Kasanda, Simon Muya, Klein, Jeff, Koopman, Brian, Kosowsky, Arthur, Li, Dale, Madhavacheril, Mathew, Marriage, Tobias A, McMahon, Jeff, Menanteau, Felipe, Moodley, Kavilan, Munson, Charles, Naess, Sigurd, Nati, Federico, Newburgh, Laura, Nibarger, John, Niemack, Michael D, Nolta, Michael R, Nuñez, Carolina, Page, Lyman A, Pappas, Christine, Partridge, Bruce, Rojas, Felipe, Schaan, Emmanuel, Schmitt, Benjamin L, Sehgal, Neelima, Sherwin, Blake D, Sievers, Jon, Simon, Sara, Spergel, David N, Staggs, Suzanne T, Switzer, Eric R, Thornton, Robert, Trac, Hy, Treu, Jesse, Tucker, Carole, Van Engelen, Alexander, Ward, Jonathan T, and Wollack, Edward J

Subjects
Nuclear and Plasma Physics, Particle and High Energy Physics, Physical Sciences, CMBR experiments, CMBR polarisation, cosmological parameters from CMBR, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Astronomical sciences, Particle and high energy physics
Abstract

We present the temperature and polarization angular power spectra measured by the Atacama Cosmology Telescope Polarimeter (ACTPol). We analyze night-time data collected during 2013-14 using two detector arrays at 149 GHz, from 548 deg2 of sky on the celestial equator. We use these spectra, and the spectra measured with the MBAC camera on ACT from 2008-10, in combination with planck and wmap data to estimate cosmological parameters from the temperature, polarization, and temperature-polarization cross-correlations. We find the new ACTPol data to be consistent with the ΛCDM model. The ACTPol temperature-polarization cross-spectrum now provides stronger constraints on multiple parameters than the ACTPol temperature spectrum, including the baryon density, the acoustic peak angular scale, and the derived Hubble constant. The new ACTPol data provide information on damping tail parameters. The joint uncertainty on the number of neutrino species and the primordial helium fraction is reduced by 20% when adding ACTPol to Planck temperature data alone.

Published
2017

13. VHF Josephson Arbitrary Waveform Synthesizer

Author

Thomas, Jeremy N., Flowers-Jacobs, Nathan E., Fox, Anna E., Babenko, Akim A., Benz, Samuel P., and Dresselhaus, Paul D.

Abstract

We report on the design, fabrication, and measurement of a very high frequency band Josephson arbitrary waveform synthesizer (VHF-JAWS) at frequencies from 1 kHz to 50.05 MHz. The VHF-JAWS chip is composed of a series array of 12 810 Josephson junctions (JJs) embedded in a superconducting coplanar waveguide. Each JJ responds to a pattern of current pulses by creating a corresponding pattern of voltage pulses, each with a time-integrated area related to fundamental constants as ${{h/2e}}$. The pulse patterns are chosen to produce quantum-based single-tone voltage waveforms with an open-circuit voltage of 50 mV rms (–19.03 dBm output power into 50 $\Omega$ load impedances) at frequencies up to 50.05 MHz, which is more than twice the voltage that has been generated by previous RF-JAWS designs at 1 GHz. The VHF-JAWS is “quantum-locked,” that is, it generates one quantized output voltage pulse per input current pulse per JJ while varying the dc current through the JJ array by at least 0.4 mA and the amplitude of the bias pulses by at least 10 %. We use the large bias pulse quantum-locking range to investigate one source of error in detail: the direct feedthrough of the current bias pulses into the DUT at VHF frequencies, which adds an unwanted, in-band component to the measured voltage. We reduce this error by high-pass filtering the current bias pulses and measure the error as a function of input pulse amplitude using two techniques: 1) by measuring small changes over the quantum-locking range and 2) by passively attenuating the input pulse amplitude so that the nonlinear JJs no longer generate voltage pulses while the error is only linearly scaled.

Published
2024
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14. The Atacama Cosmology Telescope: CMB Polarization at $200<\ell<9000$

Author

Naess, Sigurd, Hasselfield, Matthew, McMahon, Jeff, Niemack, Michael D., Addison, Graeme E., Ade, Peter A. R., Allison, Rupert, Amiri, Mandana, Battaglia, Nick, Beall, James A., de Bernardis, Francesco, Bond, J Richard, Britton, Joe, Calabrese, Erminia, Cho, Hsiao-mei, Coughlin, Kevin, Crichton, Devin, Das, Sudeep, Datta, Rahul, Devlin, Mark J., Dicker, Simon R., Dunkley, Joanna, Dünner, Rolando, Fowler, Joseph W., Fox, Anna E., Gallardo, Patricio, Grace, Emily, Gralla, Megan, Hajian, Amir, Halpern, Mark, Henderson, Shawn, Hill, J. Colin, Hilton, Gene C., Hilton, Matt, Hincks, Adam D., Hlozek, Renée, Ho, Patty, Hubmayr, Johannes, Huffenberger, Kevin M., Hughes, John P., Infante, Leopoldo, Irwin, Kent, Jackson, Rebecca, Kasanda, Simon Muya, Klein, Jeff, Koopman, Brian, Kosowsky, Arthur, Li, Dale, Louis, Thibaut, Lungu, Marius, Madhavacheril, Mathew, Marriage, Tobias A., Maurin, Loïc, Menanteau, Felipe, Moodley, Kavilan, Munson, Charles, Newburgh, Laura, Nibarger, John, Nolta, Michael R., Page, Lyman A., Pappas, Christine, Partridge, Bruce, Rojas, Felipe, Schmitt, Benjamin, Sehgal, Neelima, Sherwin, Blake D., Sievers, Jon, Simon, Sara, Spergel, David N., Staggs, Suzanne T., Switzer, Eric R., Thornton, Robert, Trac, Hy, Tucker, Carole, Uehara, Masao, Van Engelen, Alexander, Ward, Jon, and Wollack, Edward J.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We report on measurements of the cosmic microwave background (CMB) and celestial polarization at 146 GHz made with the Atacama Cosmology Telescope Polarimeter (ACTPol) in its first three months of observing. Four regions of sky covering a total of 270 square degrees were mapped with an angular resolution of $1.3'$. The map noise levels in the four regions are between 11 and 17 $\mu$K-arcmin. We present TT, TE, EE, TB, EB, and BB power spectra from three of these regions. The observed E-mode polarization power spectrum, displaying six acoustic peaks in the range $200<\ell<3000$, is an excellent fit to the prediction of the best-fit cosmological models from WMAP9+ACT and Planck data. The polarization power spectrum, which mainly reflects primordial plasma velocity perturbations, provides an independent determination of cosmological parameters consistent with those based on the temperature power spectrum, which results mostly from primordial density perturbations. We find that without masking any point sources in the EE data at $\ell<9000$, the Poisson tail of the EE power spectrum due to polarized point sources has an amplitude less than $2.4$ $\mu$K$^2$ at $\ell = 3000$ at 95\% confidence. Finally, we report that the Crab Nebula, an important polarization calibration source at microwave frequencies, has 8.7\% polarization with an angle of $150.7^\circ \pm 0.6^\circ$ when smoothed with a $5'$ Gaussian beam., Comment: 16 pages, 15 figures, 5 tables

Published
2014
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15. On-chip, photon-number-resolving, telecom-band detectors for scalable photonic information processing

Author

Gerrits, Thomas, Thomas-Peter, Nicholas, Gates, James C., Lita, Adriana E., Metcalf, Benjamin J., Calkins, Brice, Tomlin, Nathan A., Fox, Anna E., Linares, Antía Lamas, Spring, Justin B., Langford, Nathan K., Mirin, Richard P., Smith, Peter G. R., Walmsley, Ian A., and Nam, Sae Woo

Subjects
Quantum Physics, Physics - Optics
Abstract

Integration is currently the only feasible route towards scalable photonic quantum processing devices that are sufficiently complex to be genuinely useful in computing, metrology, and simulation. Embedded on-chip detection will be critical to such devices. We demonstrate an integrated photon-number resolving detector, operating in the telecom band at 1550 nm, employing an evanescently coupled design that allows it to be placed at arbitrary locations within a planar circuit. Up to 5 photons are resolved in the guided optical mode via absorption from the evanescent field into a tungsten transition-edge sensor. The detection efficiency is 7.2 \pm 0.5 %. The polarization sensitivity of the detector is also demonstrated. Detailed modeling of device designs shows a clear and feasible route to reaching high detection efficiencies.

Published
2011
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21. Two-Season Atacama Cosmology Telescope Polarimeter Lensing Power Spectrum

Author

Shewin, Blake D, van Engelen, Alexander, Sehgal, Neelima, Madhavacheril, Mathew, Addison, Graeme E, Aiola, Simone, Allison, Rupert, Battaglia, Nicholas, Becker, Daniel T, Beall, James A, Bond, J. Richard, Calabrese, Ermini, Datta, Rahul, Devlin, Mark J, Dunner, Rolando, Dunkley, Joanna, Fox, Anna E, Gallardo, Patricio, Halpern, Mark, Hasselfield, Matthew, Henderson, Shawn, Hill, J. Colin, Hilton, Gene C, Hubmayr, Johannes, Hughes, John P, Hincks, Adam D, Hlozek, Renee, Huffenberger, Kevin M, Koopman, Brian, Kosowsky, Arthur, Louis, Thibaut, Maurin, Loic, McMahon, Jeff, Moodley, Kavilan, Naess, Sigurd, Nati, Federico, Newburgh, Laura, Niemack, Michael D, Page, Lyman A, Sievers, Jonathan, Spergel, David N, Staggs, Suzanne T, Thornton, Robert J, Van Lanen, Jeff, Vavagiakis, Eve, and Wollack, Edward J

Subjects
Astrophysics
Abstract

We report a measurement of the power spectrum of cosmic microwave background (CMB) lensing from two seasons of Atacama Cosmology Telescope polarimeter (ACTPol) CMB data. The CMB lensing power spectrum is extracted from both temperature and polarization data using quadratic estimators. We obtain results that are consistent with the expectation from the best-fit Planck CDM model over a range of multipoles L 80-2100, with an amplitude of lensing A(sub lens) = 1.06 +/- 0.15 stat +/- 0.06 sys relative to Planck. Our measurement of the CMB lensing power spectrum gives sigma 8 omega m(sup 0.25) = 0.643 +/- 0.054; including baryon acoustic oscillation scale data, we constrain the amplitude of density fluctuations to be sigma 8 = 0.831 +/- 0.053. We also update constraints on the neutrino mass sum. We verify our lensing measurement with a number of null tests and systematic checks, finding no evidence of significant systematic errors. This measurement relies on a small fraction of the ACTPol data already taken; more precise lensing results can therefore be expected from the full ACTPol data set.

Published
2017
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22. A Microwave Quantum-Defined Millivolt Source

Author

Babenko, Akim A., primary, Flowers-Jacobs, Nathan E., additional, Lasser, Gregor, additional, Brevik, Justus A., additional, Fox, Anna E., additional, Dresselhaus, Paul D., additional, Popovic, Zoya, additional, and Benz, Samuel P., additional

Published
2021
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23. The NIST Johnson Noise Thermometry System for the Determination of the Boltzmann Constant

Author

Flowers-Jacobs, Nathan E., Pollarolo, Alessio, Coakley, Kevin J., Weis, Adam C., Fox, Anna E., Rogalla, Horst, Tew, Weston L., and Benz, Samuel P.

Subjects
Chemistry, Physics, Science and technology
Abstract

1. IntroductionFor the forthcoming redefinition of the kelvin in the International System of Units (SI), an exact numerical value for the Boltzmann constant k in units of joules per kelvin [...]

Published
2017
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24. Holographically formed polymer dispersed liquid crystal films for transmission mode spectrometer applications

Author

Fox, Anna E., Rai, Kashma, and Fontecchio, Adam K.

Subjects
Dielectric films -- Optical properties, Thin films -- Optical properties, Liquid crystals -- Optical properties, Holography -- Usage, Astronomy, Physics
Abstract

We show proof of concept of a transmission-mode wavelength filtering device consisting of layered holographically formed polymer dispersed liquid crystal (H-PDLC) cells. H-PDLC cells were fabricated from a thiolene based polymer composite to have transmission notches in the near-IR wavelength range. Wavelength filtering was achieved by stacking four H-PDLC cells with transmission notches spaced at 10 nm intervals. Results show a broad transmission notch spanning the spectral width of the constituent cells. With bias applied to an individual cell within the stack, the transmission notch of the cell inverts and the overall transmission envelope changes shape. Using a transmitted energy sensing device and a lineshape mapping algorithm, spectral content can be determined to a resolution of 0.1 nm for narrow banded signals. Applications for this switchable wavelength filtering device include serial detection of spectral content for telecom data signals or chemical and biological sample identification through absorption or emission spectroscopy. OCIS codes: 090.2890, 160.0160, 300.6190, 310.6860.

Published
2007

25. The Atacama Cosmology Telescope: DR4 maps and cosmological parameters

Author

Aiola, Simone, primary, Calabrese, Erminia, additional, Maurin, Loïc, additional, Naess, Sigurd, additional, Schmitt, Benjamin L., additional, Abitbol, Maximilian H., additional, Addison, Graeme E., additional, Ade, Peter A. R., additional, Alonso, David, additional, Amiri, Mandana, additional, Amodeo, Stefania, additional, Angile, Elio, additional, Austermann, Jason E., additional, Baildon, Taylor, additional, Battaglia, Nick, additional, Beall, James A., additional, Bean, Rachel, additional, Becker, Daniel T., additional, Bond, J Richard, additional, Bruno, Sarah Marie, additional, Calafut, Victoria, additional, Campusano, Luis E., additional, Carrero, Felipe, additional, Chesmore, Grace E., additional, Cho, Hsiao-mei, additional, Choi, Steve K., additional, Clark, Susan E., additional, Cothard, Nicholas F., additional, Crichton, Devin, additional, Crowley, Kevin T., additional, Darwish, Omar, additional, Datta, Rahul, additional, Denison, Edward V., additional, Devlin, Mark J., additional, Duell, Cody J., additional, Duff, Shannon M., additional, Duivenvoorden, Adriaan J., additional, Dunkley, Jo, additional, Dünner, Rolando, additional, Essinger-Hileman, Thomas, additional, Fankhanel, Max, additional, Ferraro, Simone, additional, Fox, Anna E., additional, Fuzia, Brittany, additional, Gallardo, Patricio A., additional, Gluscevic, Vera, additional, Golec, Joseph E., additional, Grace, Emily, additional, Gralla, Megan, additional, Guan, Yilun, additional, Hall, Kirsten, additional, Halpern, Mark, additional, Han, Dongwon, additional, Hargrave, Peter, additional, Hasselfield, Matthew, additional, Helton, Jakob M., additional, Henderson, Shawn, additional, Hensley, Brandon, additional, Hill, J. Colin, additional, Hilton, Gene C., additional, Hilton, Matt, additional, Hincks, Adam D., additional, Hložek, Renée, additional, Ho, Shuay-Pwu Patty, additional, Hubmayr, Johannes, additional, Huffenberger, Kevin M., additional, Hughes, John P., additional, Infante, Leopoldo, additional, Irwin, Kent, additional, Jackson, Rebecca, additional, Klein, Jeff, additional, Knowles, Kenda, additional, Koopman, Brian, additional, Kosowsky, Arthur, additional, Lakey, Vincent, additional, Li, Dale, additional, Li, Yaqiong, additional, Li, Zack, additional, Lokken, Martine, additional, Louis, Thibaut, additional, Lungu, Marius, additional, MacInnis, Amanda, additional, Madhavacheril, Mathew, additional, Maldonado, Felipe, additional, Mallaby-Kay, Maya, additional, Marsden, Danica, additional, McMahon, Jeff, additional, Menanteau, Felipe, additional, Moodley, Kavilan, additional, Morton, Tim, additional, Namikawa, Toshiya, additional, Nati, Federico, additional, Newburgh, Laura, additional, Nibarger, John P., additional, Nicola, Andrina, additional, Niemack, Michael D., additional, Nolta, Michael R., additional, Orlowski-Sherer, John, additional, Page, Lyman A., additional, Pappas, Christine G., additional, Partridge, Bruce, additional, Phakathi, Phumlani, additional, Pisano, Giampaolo, additional, Prince, Heather, additional, Puddu, Roberto, additional, Qu, Frank J., additional, Rivera, Jesus, additional, Robertson, Naomi, additional, Rojas, Felipe, additional, Salatino, Maria, additional, Schaan, Emmanuel, additional, Schillaci, Alessandro, additional, Sehgal, Neelima, additional, Sherwin, Blake D., additional, Sierra, Carlos, additional, Sievers, Jon, additional, Sifon, Cristobal, additional, Sikhosana, Precious, additional, Simon, Sara, additional, Spergel, David N., additional, Staggs, Suzanne T., additional, Stevens, Jason, additional, Storer, Emilie, additional, Sunder, Dhaneshwar D., additional, Switzer, Eric R., additional, Thorne, Ben, additional, Thornton, Robert, additional, Trac, Hy, additional, Treu, Jesse, additional, Tucker, Carole, additional, Vale, Leila R., additional, Engelen, Alexander Van, additional, Lanen, Jeff Van, additional, Vavagiakis, Eve M., additional, Wagoner, Kasey, additional, Wang, Yuhan, additional, Ward, Jonathan T., additional, Wollack, Edward J., additional, Xu, Zhilei, additional, Zago, Fernando, additional, and Zhu, Ningfeng, additional

Published
2020
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26. The Atacama Cosmology Telescope: a CMB lensing mass map over 2100 square degrees of sky and its cross-correlation with BOSS-CMASS galaxies

Author

Darwish, Omar, primary, Madhavacheril, Mathew S, additional, Sherwin, Blake D, additional, Aiola, Simone, additional, Battaglia, Nicholas, additional, Beall, James A, additional, Becker, Daniel T, additional, Bond, J Richard, additional, Calabrese, Erminia, additional, Choi, Steve K, additional, Devlin, Mark J, additional, Dunkley, Jo, additional, Dünner, Rolando, additional, Ferraro, Simone, additional, Fox, Anna E, additional, Gallardo, Patricio A, additional, Guan, Yilun, additional, Halpern, Mark, additional, Han, Dongwon, additional, Hasselfield, Matthew, additional, Hill, J Colin, additional, Hilton, Gene C, additional, Hilton, Matt, additional, Hincks, Adam D, additional, Patty Ho, Shuay-Pwu, additional, Hubmayr, J, additional, Hughes, John P, additional, Koopman, Brian J, additional, Kosowsky, Arthur, additional, Van Lanen, J, additional, Louis, Thibaut, additional, Lungu, Marius, additional, MacInnis, Amanda, additional, Maurin, Loïc, additional, McMahon, Jeffrey, additional, Moodley, Kavilan, additional, Naess, Sigurd, additional, Namikawa, Toshiya, additional, Nati, Federico, additional, Newburgh, Laura, additional, Nibarger, John P, additional, Niemack, Michael D, additional, Page, Lyman A, additional, Partridge, Bruce, additional, Qu, Frank J, additional, Robertson, Naomi, additional, Schillaci, Alessandro, additional, Schmitt, Benjamin, additional, Sehgal, Neelima, additional, Sifón, Cristóbal, additional, Spergel, David N, additional, Staggs, Suzanne, additional, Storer, Emilie, additional, van Engelen, Alexander, additional, and Wollack, Edward J, additional

Published
2020
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29. Characterization of a Josephson Junction Comb Generator

Author

Babenko, Akim A., primary, Boaventura, Alirio S., additional, Flowers-Jacobs, Nathan E., additional, Brevik, Justus A., additional, Fox, Anna E., additional, Williams, Dylan F., additional, Popovic, Zoya, additional, Dresselhaus, Paul D., additional, and Benz, Samuel P., additional

Published
2020
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30. Compact DC Josephson Voltage Standard

Author

Rufenacht, Alain, primary, Fox, Anna E., additional, Butler, Grace E., additional, Burroughs, Charles J., additional, Dresselhaus, Paul D., additional, Schwall, Robert E., additional, Cular, Stefan, additional, and Benz, Samuel P., additional

Published
2020
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33. Atacama Cosmology Telescope: Constraints on cosmic birefringence

Author

Namikawa, Toshiya, primary, Guan, Yilun, additional, Darwish, Omar, additional, Sherwin, Blake D., additional, Aiola, Simone, additional, Battaglia, Nicholas, additional, Beall, James A., additional, Becker, Daniel T., additional, Bond, J. Richard, additional, Calabrese, Erminia, additional, Chesmore, Grace E., additional, Choi, Steve K., additional, Devlin, Mark J., additional, Dunkley, Joanna, additional, Dünner, Rolando, additional, Fox, Anna E., additional, Gallardo, Patricio A., additional, Gluscevic, Vera, additional, Han, Dongwon, additional, Hasselfield, Matthew, additional, Hilton, Gene C., additional, Hincks, Adam D., additional, Hložek, Renée, additional, Hubmayr, Johannes, additional, Huffenberger, Kevin, additional, Hughes, John P., additional, Koopman, Brian J., additional, Kosowsky, Arthur, additional, Louis, Thibaut, additional, Lungu, Marius, additional, MacInnis, Amanda, additional, Madhavacheril, Mathew S., additional, Mallaby-Kay, Maya, additional, Maurin, Loïc, additional, McMahon, Jeffrey, additional, Moodley, Kavilan, additional, Naess, Sigurd, additional, Nati, Federico, additional, Newburgh, Laura B., additional, Nibarger, John P., additional, Niemack, Michael D., additional, Page, Lyman A., additional, Qu, Frank J., additional, Robertson, Naomi, additional, Schillaci, Alessandro, additional, Sehgal, Neelima, additional, Sifón, Cristóbal, additional, Simon, Sara M., additional, Spergel, David N., additional, Staggs, Suzanne T., additional, Storer, Emilie R., additional, van Engelen, Alexander, additional, van Lanen, Jeff, additional, and Wollack, Edward J., additional

Published
2020
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42. The Atacama Cosmology Telescope: a CMB lensing mass map over 2100 square degrees of sky and its cross-correlation with BOSS-CMASS galaxies.

Author

Darwish, Omar, Madhavacheril, Mathew S, Sherwin, Blake D, Aiola, Simone, Battaglia, Nicholas, Beall, James A, Becker, Daniel T, Bond, J Richard, Calabrese, Erminia, Choi, Steve K, Devlin, Mark J, Dunkley, Jo, Dünner, Rolando, Ferraro, Simone, Fox, Anna E, Gallardo, Patricio A, Guan, Yilun, Halpern, Mark, Han, Dongwon, and Hasselfield, Matthew

Subjects
CROSS correlation, COSMIC background radiation, LARGE scale structure (Astronomy), TELESCOPES, DARK matter
Abstract

We construct cosmic microwave background lensing mass maps using data from the 2014 and 2015 seasons of observations with the Atacama Cosmology Telescope (ACT). These maps cover 2100 square degrees of sky and overlap with a wide variety of optical surveys. The maps are signal dominated on large scales and have fidelity such that their correlation with the cosmic infrared background is clearly visible by eye. We also create lensing maps with thermal Sunyaev−Zel'dovich contamination removed using a novel cleaning procedure that only slightly degrades the lensing signal-to-noise ratio. The cross-spectrum between the cleaned lensing map and the BOSS CMASS galaxy sample is detected at 10σ significance, with an amplitude of A = 1.02 ± 0.10 relative to the Planck best-fitting Lambda cold dark matter cosmological model with fiducial linear galaxy bias. Our measurement lays the foundation for lensing cross-correlation science with current ACT data and beyond. [ABSTRACT FROM AUTHOR]

Published
2021
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49. Two-season Atacama Cosmology Telescope polarimeter lensing power spectrum

Author

Sherwin, Blake D., primary, van Engelen, Alexander, additional, Sehgal, Neelima, additional, Madhavacheril, Mathew, additional, Addison, Graeme E., additional, Aiola, Simone, additional, Allison, Rupert, additional, Battaglia, Nicholas, additional, Becker, Daniel T., additional, Beall, James A., additional, Bond, J. Richard, additional, Calabrese, Erminia, additional, Datta, Rahul, additional, Devlin, Mark J., additional, Dünner, Rolando, additional, Dunkley, Joanna, additional, Fox, Anna E., additional, Gallardo, Patricio, additional, Halpern, Mark, additional, Hasselfield, Matthew, additional, Henderson, Shawn, additional, Hill, J. Colin, additional, Hilton, Gene C., additional, Hubmayr, Johannes, additional, Hughes, John P., additional, Hincks, Adam D., additional, Hlozek, Renée, additional, Huffenberger, Kevin M., additional, Koopman, Brian, additional, Kosowsky, Arthur, additional, Louis, Thibaut, additional, Maurin, Loïc, additional, McMahon, Jeff, additional, Moodley, Kavilan, additional, Naess, Sigurd, additional, Nati, Federico, additional, Newburgh, Laura, additional, Niemack, Michael D., additional, Page, Lyman A., additional, Sievers, Jonathan, additional, Spergel, David N., additional, Staggs, Suzanne T., additional, Thornton, Robert J., additional, Van Lanen, Jeff, additional, Vavagiakis, Eve, additional, and Wollack, Edward J., additional

Published
2017
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