Your search keyword '"Orlowski-Scherer, John L."' showing total 26 results

1. The Simons Observatory Large Aperture Telescope Receiver

Author

Zhu, Ningfeng, Bhandarkar, Tanay, Coppi, Gabriele, Kofman, Anna M., Orlowski-Scherer, John L., Xu, Zhilei, Adachi, Shunsuke, Ade, Peter, Aiola, Simone, Austermann, Jason, Bazarko, Andrew O., Beall, James A., Bhimani, Sanah, Bond, J. Richard, Chesmore, Grace E., Choi, Steve K., Connors, Jake, Cothard, Nicholas F., Devlin, Mark, Dicker, Simon, Dober, Bradley, Duell, Cody J., Duff, Shannon M., Dünner, Rolando, Fabbian, Giulio, Galitzki, Nicholas, Gallardo, Patricio A., Golec, Joseph E., Haridas, Saianeesh K., Harrington, Kathleen, Healy, Erin, Ho, Shuay-Pwu Patty, Huber, Zachary B., Hubmayr, Johannes, Iuliano, Jeffrey, Johnson, Bradley R., Keatin, Brian, Kiuchi, Kenji, Koopman, Brian J., Lashner, Jack, Lee, Adrian T., Li, Yaqiong, Limon, Michele, Link, Michael, Lucas, Tammy J, McCarrick, Heather, Moore, Jenna, Nati, Federico, Newburgh, Laura B., Niemack, Michael D., Pierpaoli, Elena, Randall, Michael J., Sarmiento, Karen Perez, Saunders, Lauren J., Seibert, Joseph, Sierra, Carlos, Sonka, Rita, Spisak, Jacob, Sutariya, Shreya, Tajima, Osamu, Teply, Grant P., Thornton, Robert J., Tsan, Tran, Tucker, Carole, Ullom, Joel, Vavagiakis, Eve M., Vissers, Michael R., Walker, Samantha, Westbrook, Benjamin, Wollack, Edward J., and Zannoni, Mario

Subjects

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

Abstract

The Simons Observatory (SO) Large Aperture Telescope Receiver (LATR) will be coupled to the Large Aperture Telescope located at an elevation of 5,200 m on Cerro Toco in Chile. The resulting instrument will produce arcminute-resolution millimeter-wave maps of half the sky with unprecedented precision. The LATR is the largest cryogenic millimeter-wave camera built to date with a diameter of 2.4 m and a length of 2.6 m. It cools 1200 kg of material to 4 K and 200 kg to 100 mk, the operating temperature of the bolometric detectors with bands centered around 27, 39, 93, 145, 225, and 280 GHz. Ultimately, the LATR will accommodate 13 40 cm diameter optics tubes, each with three detector wafers and a total of 62,000 detectors. The LATR design must simultaneously maintain the optical alignment of the system, control stray light, provide cryogenic isolation, limit thermal gradients, and minimize the time to cool the system from room temperature to 100 mK. The interplay between these competing factors poses unique challenges. We discuss the trade studies involved with the design, the final optimization, the construction, and ultimate performance of the system.

Published

2021

2. The Simons Observatory: the Large Aperture Telescope Receiver (LATR) Integration and Validation Results

Author

Xu, Zhilei, Bhandarkar, Tanay, Coppi, Gabriele, Kofman, Anna M., Orlowski-Scherer, John L., Zhu, Ningfeng, Ali, Aamir M., Arnold, Kam, Austermann, Jason E., Choi, Steve K., Connors, Jake, Cothard, Nicholas F., Devlin, Mark, Dicker, Simon, Dober, Bradley, Duff, Shannon M., Fabbian, Giulio, Galitzki, Nicholas, Haridas, Saianeesh K., Harrington, Kathleen, Healy, Erin, Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Iuliano, Jeffrey, Lashner, Jack, Li, Yaqiong, Limon, Michele, Koopman, Brian J., McCarrick, Heather, Moore, Jenna, Nati, Federico, Niemack, Michael D., Reichardt, Christian L., Sarmiento, Karen Perez, Seibert, Joseph, Silva-Feaver, Maximiliano, Sonka, Rita F., Staggs, Suzanne, Thornton, Robert J., Vavagiakis, Eve M., Vissers, Michael R., Walker, Samantha, Wang, Yuhan, Wollack, Edward J., and Zheng, Kaiwen

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Simons Observatory (SO) will observe the cosmic microwave background (CMB) from Cerro Toco in the Atacama Desert of Chile. The observatory consists of three 0.5 m Small Aperture Telescopes (SATs) and one 6 m Large Aperture Telescope (LAT), covering six frequency bands centering around 30, 40, 90, 150, 230, and 280 GHz. The SO observations will transform the understanding of our universe by characterizing the properties of the early universe, measuring the number of relativistic species and the mass of neutrinos, improving our understanding of galaxy evolution, and constraining the properties of cosmic reionization. As a critical instrument, the Large Aperture Telescope Receiver (LATR) is designed to cool $\sim$ 60,000 transition-edge sensors (TES) to $<$ 100 mK on a 1.7 m diameter focal plane. The unprecedented scale of the LATR drives a complex design. In this paper, we will first provide an overview of the LATR design. Integration and validation of the LATR design are discussed in detail, including mechanical strength, optical alignment, and cryogenic performance of the five cryogenic stages (80 K, 40 K, 4 K, 1 K, and 100 mK). We will also discuss the microwave-multiplexing ($\mu$Mux) readout system implemented in the LATR and demonstrate the operation of dark prototype TES bolometers. The $\mu$Mux readout technology enables one coaxial loop to read out $\mathcal{O}(10^3)$ TES detectors. Its implementation within the LATR serves as a critical validation for the complex RF chain design. The successful validation of the LATR performance is not only a critical milestone within the Simons Observatory, it also provides a valuable reference for other experiments, e.g. CCAT-prime and CMB-S4., Comment: 20 pages, 12 figures, submitted to the 2020 SPIE Astronomical Telescopes + Instrumentation

Published

2020

3. Simons Observatory Large Aperture Telescope Receiver Design Overview

Author

Zhu, Ningfeng, Orlowski-Scherer, John L., Xu, Zhilei, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Coppi, Gabriele, Devlin, Mark J., Dicker, Simon, Galitzki, Nicholas, Gallardo, Patricio A., Henderson, Shawn W., Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Keating, Brian, Lee, Adrian T., Limon, Michele, Lungu, Marius, Mauskopf, Philip D., May, Andrew J., McMahon, Jeff, Niemack, Michael D., Piccirillo, Lucio, Puglisi, Giuseppe, Rao, Mayuri Sathyanarayana, Salatino, Maria, Silva-Feaver, Max, Simon, Sara M., Staggs, Suzanne, Thornton, Robert, Ullom, Joel N., Vavagiakis, Eve M., Westbrook, Benjamin, and Wollack, Edward J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Simons Observatory (SO) will make precision temperature and polarization measurements of the cosmic microwave background (CMB) using a series of telescopes which will cover angular scales between one arcminute and tens of degrees and sample frequencies between 27 and 270 GHz. Here we present the current design of the large aperture telescope receiver (LATR), a 2.4 m diameter cryostat that will be mounted on the SO 6 m telescope and will be the largest CMB receiver to date. The cryostat size was chosen to take advantage of the large focal plane area having high Strehl ratios, which is inherent to the Cross-Dragone telescope design. The LATR will be able to accommodate thirteen optics tubes, each having a 36 cm diameter aperture and illuminating several thousand transition-edge sensor (TES) bolometers. This set of equipment will provide an opportunity to make measurements with unparalleled sensitivity. However, the size and complexity of the LATR also pose numerous technical challenges. In the following paper, we present the design of the LATR and include how we address these challenges. The solutions we develop in the process of designing the LATR will be informative for the general CMB community, and for future CMB experiments like CMB-S4.

Published

2018

4. Simons Observatory large aperture receiver simulation overview

Author

Orlowski-Scherer, John L., Zhu, Ningfeng, Xu, Zhilei, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Coppi, Gabriele, Devlin, Mark, Dicker, Simon, Galitzki, Nicholas, Gallardo, Patricio A., Keating, Brian, Lee, Adrian T., Limon, Michele, Lungu, Marius, May, Andrew, McMahon, Jeff, Niemack, Michael D., Piccirillo, Lucio, Puglisi, Giuseppe, Salatino, Maria, Silva-Feaver, Max, Simon, Sara M., Thornton, Robert, and Vavagiakis, Eve M.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Simons Observatory (SO) will make precision temperature and polarization measurements of the cosmic microwave background (CMB) using a series of telescopes which will cover angular scales between one arcminute and tens of degrees, contain over 60,000 detectors, and sample frequencies between 27 and 270 GHz. SO will consist of a six-meter-aperture telescope coupled to over 30,000 detectors along with an array of half-meter aperture refractive cameras, which together couple to an additional 30,000+ detectors. SO will measure fundamental cosmological parameters of our universe, find high redshift clusters via the Sunyaev-Zeldovich effect, constrain properties of neutrinos, and seek signatures of dark matter through gravitational lensing. In this paper we will present results of the simulations of the SO large aperture telescope receiver (LATR). We will show details of simulations performed to ensure the structural integrity and thermal performance of our receiver, as well as will present the results of finite element analyses (FEA) of designs for the structural support system. Additionally, a full thermal model for the LATR will be described. The model will be used to ensure we meet our design requirements. Finally, we will present the results of FEA used to identify the primary vibrational modes, and planned methods for suppressing these modes. Design solutions to each of these problems that have been informed by simulation will be presented., Comment: 14 pages, 10 figures, Proceedings of SPIE

Published

2018

5. Studies of Systematic Uncertainties for Simons Observatory: Optical Effects and Sensitivity Considerations

Author

Gallardo, Patricio A., Gudmundsson, Jon, Koopman, Brian J., Matsuda, Frederick T., Simon, Sara M., Ali, Aamir, Bryan, Sean, Chinone, Yuji, Coppi, Gabriele, Cothard, Nicholas, Devlin, Mark J., Dicker, Simon, Fabbian, Giulio, Galitzki, Nicholas, Hill, Charles A., Keating, Brian, Kusaka, Akito, Lashner, Jacob, Lee, Adrian T., Limon, Michele, Mauskopf, Philip D., McMahon, Jeff, Nati, Federico, Niemack, Michael D., Orlowski-Scherer, John L., Parshley, Stephen C., Puglisi, Giuseppe, Reichardt, Christian L, Salatino, Maria, Staggs, Suzanne, Suzuki, Aritoki, Vavagiakis, Eve M., Wollack, Edward J., Xu, Zhilei, and Zhu, Ningfeng

Subjects

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

Abstract

The Simons Observatory (SO) is a new experiment that aims to measure the cosmic microwave background (CMB) in temperature and polarization. SO will measure the polarized sky over a large range of microwave frequencies and angular scales using a combination of small ($\sim0.5 \, \rm m$) and large ($\sim 6\, \rm m $) aperture telescopes and will be located in the Atacama Desert in Chile. This work is part of a series of papers studying calibration, sensitivity, and systematic errors for SO. In this paper, we discuss current efforts to model optical systematic effects, how these have been used to guide the design of the SO instrument, and how these studies can be used to inform instrument design of future experiments like CMB-S4. While optical systematics studies are underway for both the small aperture and large aperture telescopes, we limit the focus of this paper to the more mature large aperture telescope design for which our studies include: pointing errors, optical distortions, beam ellipticity, cross-polar response, instrumental polarization rotation and various forms of sidelobe pickup., Comment: Poster presented at SPIE Astronomical Telescopes and Instrumentation 2018

Published

2018

6. The Simons Observatory: Instrument Overview

Author

Galitzki, Nicholas, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Austermann, Jason E., Baccigalupi, Carlo, Baildon, Taylor, Barron, Darcy, Beall, James A., Beckman, Shawn, Bruno, Sarah Marie M., Bryan, Sean, Calisse, Paolo G., Chesmore, Grace E., Chinone, Yuji, Choi, Steve K., Coppi, Gabriele, Crowley, Kevin D., Crowley, Kevin T., Cukierman, Ari, Devlin, Mark J., Dicker, Simon, Dober, Bradley, Duff, Shannon M., Dunkley, Jo, Fabbian, Giulio, Gallardo, Patricio A., Gerbino, Martina, Goeckner-Wald, Neil, Golec, Joseph E., Gudmundsson, Jon E., Healy, Erin E., Henderson, Shawn, Hill, Charles A., Hilton, Gene C., Ho, Shuay-Pwu Patty, Howe, Logan A., Hubmayr, Johannes, Jeong, Oliver, Keating, Brian, Koopman, Brian J., Kuichi, Kenji, Kusaka, Akito, Lashner, Jacob, Lee, Adrian T., Li, Yaqiong, Limon, Michele, Lungu, Marius, Matsuda, Frederick, Mauskopf, Philip D., May, Andrew J., McCallum, Nialh, McMahon, Jeff, Nati, Federico, Niemack, Michael D., Orlowski-Scherer, John L., Parshley, Stephen C., Piccirillo, Lucio, Rao, Mayuri Sathyanarayana, Raum, Christopher, Salatino, Maria, Seibert, Joseph S., Sierra, Carlos, Silva-Feaver, Max, Simon, Sara M., Staggs, Suzanne T., Stevens, Jason R., Suzuki, Aritoki, Teply, Grant, Thornton, Robert, Tsai, Calvin, Ullom, Joel N., Vavagiakis, Eve M., Vissers, Michael R., Westbrook, Benjamin, Wollack, Edward J., Xu, Zhilei, and Zhu, Ningfeng

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Simons Observatory (SO) will make precise temperature and polarization measurements of the cosmic microwave background (CMB) using a set of telescopes which will cover angular scales between 1 arcminute and tens of degrees, contain over 60,000 detectors, and observe at frequencies between 27 and 270 GHz. SO will consist of a 6 m aperture telescope coupled to over 30,000 transition-edge sensor bolometers along with three 42 cm aperture refractive telescopes, coupled to an additional 30,000+ detectors, all of which will be located in the Atacama Desert at an altitude of 5190 m. The powerful combination of large and small apertures in a CMB observatory will allow us to sample a wide range of angular scales over a common survey area. SO will measure fundamental cosmological parameters of our universe, constrain primordial fluctuations, find high redshift clusters via the Sunyaev-Zel`dovich effect, constrain properties of neutrinos, and trace the density and velocity of the matter in the universe over cosmic time. The complex set of technical and science requirements for this experiment has led to innovative instrumentation solutions which we will discuss. The large aperture telescope will couple to a cryogenic receiver that is 2.4 m in diameter and nearly 3 m long, creating a number of technical challenges. Concurrently, we are designing the array of cryogenic receivers housing the 42 cm aperture telescopes. We will discuss the sensor technology SO will use and we will give an overview of the drivers for and designs of the SO telescopes and receivers, with their cold optical components and detector arrays.

Published

2018

7. Prime-Cam: A first-light instrument for the CCAT-prime telescope

Author

Vavagiakis, Eve M., Ahmed, Zeeshan, Ali, Aamir, Basu, Kaustuv, Battaglia, Nicholas, Bertoldi, Frank, Bond, Richard, Bustos, Ricardo, Chapman, Scott C., Chung, Dongwoo, Coppi, Gabriele, Cothard, Nicholas F., Dicker, Simon, Duell, Cody J., Duff, Shannon M., Erler, Jens, Fich, Michel, Galitzki, Nicholas, Gallardo, Patricio A., Henderson, Shawn W., Herter, Terry L., Hilton, Gene, Hubmayr, Johannes, Irwin, Kent D., Koopman, Brian J., McMahon, Jeffrey, Murray, Norman, Niemack, Michael D., Nikolas, Thomas, Nolta, Michael, Orlowski-Scherer, John L., Parshley, Stephen C., Riechers, Dominik A., Rossi, Kayla, Scott, Douglas, Sierra, Carlos, Silva-Feaver, Max, Simon, Sara M., Stacey, Gordon J., Stevens, Jason R., Ullom, Joel N., Vissers, Michael R., Walker, Samantha, Wollack, Edward J., Xu, Zhilei, and Zhu, Ningfeng

Subjects

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

Abstract

CCAT-prime will be a 6-meter aperture telescope operating from sub-mm to mm wavelengths, located at 5600 meters elevation on Cerro Chajnantor in the Atacama Desert in Chile. Its novel crossed-Dragone optical design will deliver a high throughput, wide field of view capable of illuminating much larger arrays of sub-mm and mm detectors than can existing telescopes. We present an overview of the motivation and design of Prime-Cam, a first-light instrument for CCAT-prime. Prime-Cam will house seven instrument modules in a 1.8 meter diameter cryostat, cooled by a dilution refrigerator. The optical elements will consist of silicon lenses, and the instrument modules can be individually optimized for particular science goals. The current design enables both broadband, dual-polarization measurements and narrow-band, Fabry-Perot spectroscopic imaging using multichroic transition-edge sensor (TES) bolometers operating between 190 and 450 GHz. It also includes broadband kinetic induction detectors (KIDs) operating at 860 GHz. This wide range of frequencies will allow excellent characterization and removal of galactic foregrounds, which will enable precision measurements of the sub-mm and mm sky. Prime-Cam will be used to constrain cosmology via the Sunyaev-Zeldovich effects, map the intensity of [CII] 158 $\mu$m emission from the Epoch of Reionization, measure Cosmic Microwave Background polarization and foregrounds, and characterize the star formation history over a wide range of redshifts. More information about CCAT-prime can be found at www.ccatobservatory.org., Comment: Presented at SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy IX, June 15th, 2018

Published

2018

8. The Simons Observatory: development and validation of the large aperture telescope receiver

Author

Bhandarkar, Tanay, primary, Bhimani, Sanah, additional, Coppi, Gabriele, additional, Dicker, Simon, additional, Haridas, Saianeesh, additional, Harrington, Kathleen, additional, Iuliano, Jeffrey, additional, Johnson, Bradley, additional, Kofman, Anna M., additional, Lashner, Jack, additional, Moore, Jenna, additional, Nguyen, David, additional, Orlowski-Scherer, John L., additional, Perez Sarmiento, Karen, additional, Robe, Julia, additional, Silva-Feaver, Maximiliano, additional, Thornton, Robert J., additional, Wang, Yuhan, additional, and Xu, Zhilei, additional

Published

2022

9. The Simons Observatory Large Aperture Telescope Optics Tubes: design and performance status

Author

Kofman, Anna M., primary, Haridas, Saianeesh, additional, Perez Sarmiento, Karen, additional, Bhandarkar, Tanay, additional, Iuliano, Jeffrey, additional, Orlowski-Scherer, John L., additional, Thornton, Robert J., additional, and Devlin, Mark J., additional

Published

2022

10. Erratum: “The Simons Observatory Large Aperture Telescope Receiver” (2021, ApJS, 256, 23)

Author

Zhu, Ningfeng, primary, Bhandarkar, Tanay, additional, Coppi, Gabriele, additional, Kofman, Anna M., additional, Orlowski-Scherer, John L., additional, Xu, Zhilei, additional, Adachi, Shunsuke, additional, Ade, Peter, additional, Aiola, Simone, additional, Austermann, Jason, additional, Bazarko, Andrew O., additional, Beall, James A., additional, Bhimani, Sanah, additional, Bond, J. Richard, additional, Chesmore, Grace E., additional, Choi, Steve K., additional, Connors, Jake, additional, Cothard, Nicholas F., additional, Devlin, Mark, additional, Dicker, Simon, additional, Dober, Bradley, additional, Duell, Cody J., additional, Duff, Shannon M., additional, Dünner, Rolando, additional, Fabbian, Giulio, additional, Galitzki, Nicholas, additional, Gallardo, Patricio A., additional, Golec, Joseph E., additional, Haridas, Saianeesh K., additional, Harrington, Kathleen, additional, Healy, Erin, additional, Patty Ho, Shuay-Pwu, additional, Huber, Zachary B., additional, Hubmayr, Johannes, additional, Iuliano, Jeffrey, additional, Johnson, Bradley R., additional, Keating, Brian, additional, Kiuchi, Kenji, additional, Koopman, Brian J., additional, Lashner, Jack, additional, Lee, Adrian T., additional, Li, Yaqiong, additional, Limon, Michele, additional, Link, Michael, additional, Lucas, Tammy J, additional, McCarrick, Heather, additional, Moore, Jenna, additional, Nati, Federico, additional, Newburgh, Laura B., additional, Niemack, Michael D., additional, Pierpaoli, Elena, additional, Randall, Michael J., additional, Sarmiento, Karen Perez, additional, Saunders, Lauren J., additional, Seibert, Joseph, additional, Sierra, Carlos, additional, Sonka, Rita, additional, Spisak, Jacob, additional, Sutariya, Shreya, additional, Tajima, Osamu, additional, Teply, Grant P., additional, Thornton, Robert J., additional, Tsan, Tran, additional, Tucker, Carole, additional, Ullom, Joel, additional, Vavagiakis, Eve M., additional, Vissers, Michael R., additional, Walker, Samantha, additional, Westbrook, Benjamin, additional, Wollack, Edward J., additional, and Zannoni, Mario, additional

Published

2021

11. The Simons Observatory Large Aperture Telescope Receiver

Author

Zhu, Ningfeng, primary, Bhandarkar, Tanay, additional, Coppi, Gabriele, additional, Kofman, Anna M., additional, Orlowski-Scherer, John L., additional, Xu, Zhilei, additional, Adachi, Shunsuke, additional, Ade, Peter, additional, Aiola, Simone, additional, Austermann, Jason, additional, Bazarko, Andrew O., additional, Beall, James A., additional, Bhimani, Sanah, additional, Bond, J. Richard, additional, Chesmore, Grace E., additional, Choi, Steve K., additional, Connors, Jake, additional, Cothard, Nicholas F., additional, Devlin, Mark, additional, Dicker, Simon, additional, Dober, Bradley, additional, Duell, Cody J., additional, Duff, Shannon M., additional, Dünner, Rolando, additional, Fabbian, Giulio, additional, Galitzki, Nicholas, additional, Gallardo, Patricio A., additional, Golec, Joseph E., additional, Haridas, Saianeesh K., additional, Harrington, Kathleen, additional, Healy, Erin, additional, Ho, Shuay-Pwu Patty, additional, Huber, Zachary B., additional, Hubmayr, Johannes, additional, Iuliano, Jeffrey, additional, Johnson, Bradley R., additional, Keating, Brian, additional, Kiuchi, Kenji, additional, Koopman, Brian J., additional, Lashner, Jack, additional, Lee, Adrian T., additional, Li, Yaqiong, additional, Limon, Michele, additional, Link, Michael, additional, Lucas, Tammy J, additional, McCarrick, Heather, additional, Moore, Jenna, additional, Nati, Federico, additional, Newburgh, Laura B., additional, Niemack, Michael D., additional, Pierpaoli, Elena, additional, Randall, Michael J., additional, Sarmiento, Karen Perez, additional, Saunders, Lauren J., additional, Seibert, Joseph, additional, Sierra, Carlos, additional, Sonka, Rita, additional, Spisak, Jacob, additional, Sutariya, Shreya, additional, Tajima, Osamu, additional, Teply, Grant P., additional, Thornton, Robert J., additional, Tsan, Tran, additional, Tucker, Carole, additional, Ullom, Joel, additional, Vavagiakis, Eve M., additional, Vissers, Michael R., additional, Walker, Samantha, additional, Westbrook, Benjamin, additional, Wollack, Edward J., additional, and Zannoni, Mario, additional

Published

2021

12. Cold optical design for the Large Aperture Simons Observatory telescope

Author

Spyromilio, Jason, Marshall, Heather K., Gilmozzi, Roberto, Vavagiakis, Eve M., Ullom, Joel N., Thornton, Robert, Staggs, Suzanne T., Simon, Sara M., Salatino, Maria, Piccirillo, Lucio, Orlowski-Scherer, John L., Niemack, Michael D., Ho, Shuay-Pwu P., Galitzki, Nicholas, Devlin, Mark J., Coppi, Gabriele, Ashton, Peter, Ali, Aamir, Mauskopf, Phillip, Gudmudsson, Jon E., Gallardo, Patricio A., Zhu, Ningfeng, Xu, Zhilei, Wollack, Edward J., McMahon, Jeff, Matsuda, Frederick, Limon, Michele, Lee, Adrian T., Keating, Brian, Hubmayr, Johannes, Hill, Charles A., Dicker, Simon R., AstroParticule et Cosmologie (APC (UMR_7164)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7), Dicker, S, Gallardo, P, Gudmudsson, J, Mauskopf, P, Ali, A, Ashton, P, Coppi, G, Devlin, M, Galitzki, N, Ho, S, Hill, C, Hubmayr, J, Keating, B, Lee, A, Limon, M, Matsuda, F, Mcmahon, J, Niemack, M, Orlowski-Scherer, J, Piccirillo, L, Salatino, M, Simon, S, Staggs, S, Thornton, R, Ullom, J, Vavagiakis, E, Wollack, E, Xu, Z, Zhu, N, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)

Subjects

Cryostat, Simons Observatory, Crossed Dragone, Astrophysics::High Energy Astrophysical Phenomena, Cosmic microwave background, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, law.invention, 010309 optics, Telescope, Optics, law, Observatory, 0103 physical sciences, Astrophysics::Solar and Stellar Astrophysics, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], 010306 general physics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics::Galaxy Astrophysics, Physics, Reimaging optical design, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Large aperture, submillimeter telescopes, millimeter wave, Polarization (waves), Refracting telescope, Extremely high frequency, silicon lense, cryogenic optical design, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], business, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

International audience; The Simons Observatory will consist of a single large (6 m diameter) telescope and a number of smaller (∼0.5 m diameter) refracting telescopes designed to measure the polarization of the Cosmic Microwave Background to unprecedented accuracy. The large aperture telescope is the same design as the CCAT-prime telescope, a modified Crossed Dragone design with a field-of-view of over 7.8 degrees diameter at 90 GHz. This paper presents an overview of the cold reimaging optics for this telescope and what drove our choice of 350–400 mm diameter silicon lenses in a 2.4 m cryostat over other possibilities. We will also consider the future expandability of this design to CMB Stage-4 and beyond.

Published

2018

13. Systematic uncertainties in the Simons Observatory: optical effects and sensitivity considerations

Author

Gallardo, Patricio A., primary, Gudmundsson, Jon, primary, Ali, Aamir, primary, Bryan, Sean, primary, Chinone, Yuji, primary, Coppi, Gabriele, primary, Cothard, Nicholas, primary, Devlin, Mark J., primary, Dicker, Simon, primary, Fabbian, Giulio, primary, Galitzki, Nicholas, primary, Hill, Charles, primary, Keating, Brian, primary, Kusaka, Akito, primary, Lashner, Jacob, primary, Lee, Adrian T., primary, Limon, Michele, primary, Mauskopf, Philip D., primary, McMahon, Jeff, primary, Nati, Federico, primary, Niemack, Michael D., primary, Orlowski-Scherer, John L., primary, Parshley, Stephen C., primary, Puglisi, Giuseppe, primary, Reichardt, Christian L., primary, Salatino, Maria, primary, Staggs, Suzanne, primary, Suzuki, Aritoki, primary, Vavagiakis, Eve M., primary, Wollack, Edward J., primary, Xu, Zhilei, primary, Zhu, Ningfeng, primary, Matsuda, Frederick T., primary, Simon, Sara M., primary, and Koopman, Brian J., primary

Published

2018

14. The Simons Observatory: instrument overview

Author

Galitzki, Nicholas, primary, Baildon, Taylor, primary, Barron, Darcy, primary, Lashner, Jacob, primary, Lee, Adrian T., primary, Li, Yaqiong, primary, Limon, Michele, primary, Lungu, Marius, primary, Matsuda, Frederick, primary, Mauskopf, Philip D., primary, May, Andrew J., primary, McCallum, Nialh, primary, McMahon, Jeff, primary, Nati, Federico, primary, Niemack, Michael D., primary, Orlowski-Scherer, John L., primary, Parshley, Stephen C., primary, Piccirillo, Lucio, primary, Rao, Mayuri S., primary, Salatino, Maria, primary, Seibert, Joseph S., primary, Sierra, Carlos, primary, Silva-Feaver, Max, primary, Simon, Sara M., primary, Staggs, Suzanne T., primary, Stevens, Jason R., primary, Suzuki, Aritoki, primary, Teply, Grant, primary, Thornton, Robert, primary, Tsai, Calvin, primary, Ullom, Joel N., primary, Vavagiakis, Eve M., primary, Vissers, Michael R., primary, Westbrook, Benjamin, primary, Wollack, Edward J., primary, Xu, Zhilei, primary, Zhu, Ningfeng, primary, Raum, Christopher, primary, Beckman, Shawn, primary, Jeong, Oliver, primary, Ali, Aamir, primary, Arnold, Kam S., primary, Ashton, Peter C., primary, Austermann, Jason E., primary, Baccigalupi, Carlo, primary, Beall, James A., primary, Bruno, Sarah Marie M., primary, Bryan, Sean, primary, Calisse, Paolo G., primary, Chesmore, Grace E., primary, Chinone, Yuji, primary, Choi, Steve K., primary, Coppi, Gabriele, primary, Crowley, Kevin D., primary, Crowley, Kevin T., primary, Cukierman, Ari, primary, Devlin, Mark J., primary, Dicker, Simon, primary, Dober, Bradley, primary, Duff, Shannon M., primary, Dunkley, Jo, primary, Fabbian, Giulio, primary, Gallardo, Patricio A., primary, Gerbino, Martina, primary, Goeckner-Wald, Neil, primary, Golec, Joseph E., primary, Gudmundsson, Jon, primary, Healy, Erin E., primary, Henderson, Shawn, primary, Hill, Charles A., primary, Hilton, Gene C., primary, Ho, Shuay-Pwu Patty, primary, Howe, Logan A., primary, Hubmayr, Johannes, primary, Keating, Brian, primary, Koopman, Brian J., primary, Kuichi, Kenji, primary, and Kusaka, Akito, primary

Published

2018

15. Simons Observatory large aperture telescope receiver design overview

Author

Zhu, Ningfeng, primary, Orlowski-Scherer, John L., primary, Xu, Zhilei, primary, Ali, Aamir, primary, Arnold, Kam, primary, Ashton, Peter C., primary, Coppi, Gabriele, primary, Devlin, Mark J., primary, Dicker, Simon, primary, Galitzki, Nicholas, primary, Gallardo, Patricio A., primary, Ho, Shuay-Pwu P., primary, Hubmayr, Johannes, primary, Keating, Brian, primary, Lee, Adrian T., primary, Limon, Michele, primary, Mauskopf, Philip D., primary, May, Andrew J., primary, McMahon, Jeff, primary, Niemack, Michael D., primary, Piccirillo, Lucio, primary, Puglisi, Giuseppe, primary, Salatino, Maria, primary, Rao, Mayuri S., primary, Silva-Feaver, Max, primary, Simon, Sara M., primary, Staggs, Suzanne, primary, Ullom, Joel N., primary, Vavagiakis, Eve M., primary, Westbrook, Benjamin, primary, Wollack, Edward J., primary, Henderson, Shawn W., primary, Lungu, Marius, primary, and Thornton, Robert, primary

Published

2018

16. Prime-Cam: a first-light instrument for the CCAT-prime telescope

Author

Vavagiakis, Eve, primary, Ahmed, Zeeshan, primary, Ali, Aamir, primary, Basu, Kaustuv, primary, Battaglia, Nicholas, primary, Bertoldi, Frank, primary, Bond, Richard, primary, Bustos, Ricardo, primary, Chapman, Scott C., primary, Chung, Dongwoo, primary, Cothard, Nicholas F., primary, Coppi, Gabriele, primary, Dicker, Simon, primary, Duell, Cody J., primary, Duff, Shannon M., primary, Erler, Jens, primary, Fich, Michel, primary, Gallardo, Patricio A., primary, Henderson, Shawn W., primary, Herter, Terry L., primary, Galitzki, Nicholas, primary, Hilton, Gene, primary, Hubmayr, Johannes, primary, Irwin, Kent D., primary, Koopman, Brian J., primary, McMahon, Jeffrey, primary, Murray, Norman, primary, Niemack, Michael D., primary, Nikola, Thomas, primary, Nolta, Michael, primary, Orlowski-Scherer, John L., primary, Parshley, Stephen C., primary, Riechers, Dominik A., primary, Rossi, Kayla, primary, Scott, Douglas, primary, Sierra, Carlos, primary, Silva-Feaver, Max, primary, Simon, Sara M., primary, Stacey, Gordon J., primary, Stevens, Jason R., primary, Ullom, Joel N., primary, Vissers, Michael R., primary, Wollack, Edward J., primary, Xu, Zhilei, primary, Zhu, Ningfeng, primary, and Walker, Samantha, primary

Published

2018

17. Simons Observatory large aperture receiver simulation overview

Author

Orlowski-Scherer, John L., primary, Zhu, Ningfeng, primary, Zhu, Xhilei, primary, Arnold, Kam S., primary, Simon, Sara M., primary, Galitzki, Nicholas, primary, Dikcer, Simon, primary, Limon, Michele, primary, Devlin, Mark J., primary, Niemack, Michael D., primary, Puglisi, Giuseppe, primary, Coppi, Gabriele, primary, Vavagiakis, Eve M., primary, Silva-Feaver, Max, primary, Keating, Brian, primary, Ali, Aamir, primary, Piccirillo, Lucio, primary, Lee, Adrian T., primary, Gallardo, Patricio A., primary, Salatino, Maria, primary, Ashton, Peter C., primary, McMahon, Jeff, primary, Lungu, Marius, primary, May, Andrew J., primary, and Thornton, Robert, primary

Published

2018

18. Cold optical design for the large aperture Simons' Observatory telescope

Author

Dicker, Simon R., primary, Gallardo, Patricio A., additional, Gudmudsson, Jon E., additional, Mauskopf, Phillip, additional, Ali, Aamir, additional, Ashton, Peter, additional, Coppi, Gabriele, additional, Devlin, Mark J., additional, Galitzki, Nicholas, additional, Ho, Shuay-Pwu P., additional, Hill, Charles A., additional, Hubmayr, Johannes, additional, Keating, Brian, additional, Lee, Adrian T., additional, Limon, Michele, additional, Matsuda, Frederick, additional, McMahon, Jeff, additional, Niemack, Michael D., additional, Orlowski-Scherer, John L., additional, Piccirillo, Lucio, additional, Salatino, Maria, additional, Simon, Sara M., additional, Staggs, Suzanne T., additional, Thornton, Robert, additional, Ullom, Joel N., additional, Vavagiakis, Eve M., additional, Wollack, Edward J., additional, Xu, Zhilei, additional, and Zhu, Ningfeng, additional

Published

2018

19. Simons Observatory large aperture telescope receiver design overview.

Author

Ningfeng Zhu, Orlowski-Scherer, John L., Zhilei Xu, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Coppi, Gabriele, Devlin, Mark J., Dicker, Simon, Galitzki, Nicholas, Gallardo, Patricio A., Henderson, Shawn W., Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Brian Keating, Lee, Adrian T., Limon, Michele, Lungu, Marius, Mauskopf, Philip D., and May, Andrew J.

Published

2018

20. Cooldown Strategies and Transient Thermal Simulations for the Simons Observatory.

Author

Coppi, Gabriele, Zhilei Xu, Ali, Aamir, Galitzki, Nicholas, Gallardo, Patricio A., May, Andrew J., Orlowski-Scherer, John L., Ningfeng Zhu, Devlin, Mark J., Dicker, Simon, Keating, Brian, Limon, Michele, Longu, Marius, McMahon, Jeff, Niemack, Michael D., Piccirillo, Lucio, Puglisi, Giuseppe, Salatino, Maria, Simon, Sara M., and Teply, Grant

Published

2018

21. Simons Observatory large aperture receiver simulation overview

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Orlowski-Scherer, John L., Zhu, Ningfeng, Xu, Zhilei, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Coppi, Gabriele, Devlin, Mark, Dicker, Simon, Galitzki, Nicholas, Gallardo, Patricio A., Keating, Brian, Lee, Adrian T., Limon, Michele, Lungu, Marius, May, Andrew, McMahon, Jeff, Niemack, Michael D., Piccirillo, Lucio, Puglisi, Giuseppe, Salatino, Maria, Silva-Feaver, Max, Simon, Sara M., Thornton, Robert, and Vavagiakis, Eve M.

Published

2018

22. Systematic uncertainties in the Simons Observatory: optical effects and sensitivity considerations

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Gallardo, Patricio A., Gudmundsson, Jon, Koopman, Brian J., Matsuda, Frederick T., Simon, Sara M., Ali, Aamir, Bryan, Sean, Chinone, Yuji, Coppi, Gabriele, Cothard, Nicholas, Devlin, Mark J., Dicker, Simon, Fabbian, Giulio, Galitzki, Nicholas, Hill, Charles A., Keating, Brian, Kusaka, Akito, Lashner, Jacob, Lee, Adrian T., Limon, Michele, Mauskopf, Philip D., McMahon, Jeff, Nati, Federico, Niemack, Michael D., Orlowski-Scherer, John L., Parshley, Stephen C., Puglisi, Giuseppe, Reichardt, Christian L., Salatino, Maria, Staggs, Suzanne, Suzuki, Aritoki, Vavagiakis, Eve M., Wollack, Edward J., Xu, Zhilei, and Zhu, Ningfeng

Published

2018

23. The Simons Observatory: the Large Aperture Telescope Receiver (LATR) integration and validation results.

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Xu, Zhilei, Bhandarkar, Tanay, Coppi, Gabriele, Kofman, Anna, Orlowski-Scherer, John L., Zhu, Ningfeng, Ali, Aamir M., Arnold, Kam, Austermann, Jason E., Choi, Steve K., Connors, Jake, Cothard, Nicholas F., Devlin, Mark, Dicker, Simon, Dober, Bradley, Duff, Shannon M., Fabbian, Giulio, and Galitzki, Nicholas

Published

2020

24. Cold optical design for the large aperture Simons' Observatory telescope

Author

Spyromilio, Jason, Marshall, Heather K., Gilmozzi, Roberto, Vavagiakis, Eve M., Ullom, Joel N., Thornton, Robert, Staggs, Suzanne T., Simon, Sara M., Salatino, Maria, Piccirillo, Lucio, Orlowski-Scherer, John L., Niemack, Michael D., Ho, Shuay-Pwu P., Galitzki, Nicholas, Devlin, Mark J., Coppi, Gabriele, Ashton, Peter, Ali, Aamir, Mauskopf, Phillip, Gudmudsson, Jon E., Gallardo, Patricio A., Zhu, Ningfeng, Xu, Zhilei, Wollack, Edward J., McMahon, Jeff, Matsuda, Frederick, Limon, Michele, Lee, Adrian T., Keating, Brian, Hubmayr, Johannes, Hill, Charles A., Dicker, Simon R., Spyromilio, Jason, Marshall, Heather K., Gilmozzi, Roberto, Vavagiakis, Eve M., Ullom, Joel N., Thornton, Robert, Staggs, Suzanne T., Simon, Sara M., Salatino, Maria, Piccirillo, Lucio, Orlowski-Scherer, John L., Niemack, Michael D., Ho, Shuay-Pwu P., Galitzki, Nicholas, Devlin, Mark J., Coppi, Gabriele, Ashton, Peter, Ali, Aamir, Mauskopf, Phillip, Gudmudsson, Jon E., Gallardo, Patricio A., Zhu, Ningfeng, Xu, Zhilei, Wollack, Edward J., McMahon, Jeff, Matsuda, Frederick, Limon, Michele, Lee, Adrian T., Keating, Brian, Hubmayr, Johannes, Hill, Charles A., and Dicker, Simon R.

Abstract

The Simons Observatory will consist of a single large (6 m diameter) telescope and a number of smaller (∼0.5 m diameter) refracting telescopes designed to measure the polarization of the Cosmic Microwave Background to unprecedented accuracy. The large aperture telescope is the same design as the CCAT-prime telescope, a modified Crossed Dragone design with a field-of-view of over 7.8 degrees diameter at 90 GHz. This paper presents an overview of the cold reimaging optics for this telescope and what drove our choice of 350–400 mm diameter silicon lenses in a 2.4 m cryostat over other possibilities. We will also consider the future expandability of this design to CMB Stage-4 and beyond.

25. Simons Observatory large aperture telescope receiver design overview

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Zhu, Ningfeng, Orlowski-Scherer, John L., Xu, Zhilei, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Coppi, Gabriele, Devlin, Mark J., Dicker, Simon, Galitzki, Nicholas, Gallardo, Patricio A., Henderson, Shawn W., Ho, Shuay-Pwu Patty, Hubmayr, Johannes, Keating, Brian, Lee, Adrian T., Limon, Michele, Lungu, Marius, Mauskopf, Philip D., May, Andrew J., McMahon, Jeff, Niemack, Michael D., Piccirillo, Lucio, Puglisi, Giuseppe, Sathyanarayana Rao, Mayuri, Salatino, Maria, Silva-Feaver, Max, Simon, Sara M., Staggs, Suzanne, Thornton, Robert, Ullom, Joel N., Vavagiakis, Eve M., Westbrook, Benjamin, and Wollack, Edward J.

Published

2018

26. The Simons Observatory: instrument overview

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Galitzki, Nicholas, Ali, Aamir, Arnold, Kam S., Ashton, Peter C., Austermann, Jason E., Baccigalupi, Carlo, Baildon, Taylor, Barron, Darcy, Beall, James A., Beckman, Shawn, Bruno, Sarah Marie M., Bryan, Sean, Calisse, Paolo G., Chesmore, Grace E., Chinone, Yuji, Choi, Steve K., Coppi, Gabriele, Crowley, Kevin D., Crowley, Kevin T., Cukierman, Ari, Devlin, Mark J., Dicker, Simon, Dober, Bradley, Duff, Shannon M., Dunkley, Jo, Fabbian, Giulio, Gallardo, Patricio A., Gerbino, Martina, Goeckner-Wald, Neil, Golec, Joseph E., Gudmundsson, Jon E., Healy, Erin E., Henderson, Shawn, Hill, Charles A., Hilton, Gene C., Ho, Shuay-Pwu Patty, Howe, Logan A., Hubmayr, Johannes, Jeong, Oliver, Keating, Brian, Koopman, Brian J., Kiuchi, Kenji, Kusaka, Akito, Lashner, Jacob, Lee, Adrian T., Li, Yaqiong, Limon, Michele, Lungu, Marius, Matsuda, Frederick, Mauskopf, Philip D., May, Andrew J., McCallum, Nialh, McMahon, Jeff, Nati, Federico, Niemack, Michael D., Orlowski-Scherer, John L., Parshley, Stephen C., Piccirillo, Lucio, Sathyanarayana Rao, Mayuri, Raum, Christopher, Salatino, Maria, Seibert, Joseph S., Sierra, Carlos, Silva-Feaver, Max, Simon, Sara M., Staggs, Suzanne T., Stevens, Jason R., Suzuki, Aritoki, Teply, Grant, Thornton, Robert, Tsai, Calvin, Ullom, Joel N., Vavagiakis, Eve M., Vissers, Michael R., Westbrook, Benjamin, Wollack, Edward J., Xu, Zhilei, and Zhu, Ningfeng

Published

2018