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The Simons Observatory: Instrument Overview
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...
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| Published in: | arXiv.org 2018-08 |
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| creator | Galitzki, Nicholas Ali, Aamir Arnold, Kam S Ashton, Peter C Austermann, Jason E Baccigalupi, Carlo Taylor Baildon 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 Shuay-Pwu Patty Ho 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 Zhu, Ningfeng |
| description | 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. |
| doi_str_mv | 10.48550/arxiv.1808.04493 |
| format | article |
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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.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1808.04493</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Aperture ; Apertures ; Big Bang theory ; Bolometers ; Cosmic microwave background ; Detectors ; Neutrinos ; Observatories ; Optical components ; Receivers ; Red shift ; Telescopes ; Universe ; Variations</subject><ispartof>arXiv.org, 2018-08</ispartof><rights>2018. 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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.</description><subject>Aperture</subject><subject>Apertures</subject><subject>Big Bang theory</subject><subject>Bolometers</subject><subject>Cosmic microwave background</subject><subject>Detectors</subject><subject>Neutrinos</subject><subject>Observatories</subject><subject>Optical components</subject><subject>Receivers</subject><subject>Red 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Ningfeng</creatorcontrib><collection>ProQuest SciTech Collection</collection><collection>ProQuest Technology Collection</collection><collection>Materials Science & Engineering Collection</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central</collection><collection>ProQuest Central Essentials</collection><collection>ProQuest Central</collection><collection>Technology Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central</collection><collection>SciTech Premium Collection</collection><collection>ProQuest Engineering Collection</collection><collection>Engineering Database</collection><collection>ProQuest Publicly Available Content database</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>Engineering Collection</collection><jtitle>arXiv.org</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Galitzki, Nicholas</au><au>Ali, Aamir</au><au>Arnold, Kam S</au><au>Ashton, Peter C</au><au>Austermann, Jason E</au><au>Baccigalupi, Carlo</au><au>Taylor Baildon</au><au>Barron, Darcy</au><au>Beall, James A</au><au>Beckman, Shawn</au><au>Bruno, Sarah Marie M</au><au>Bryan, Sean</au><au>Calisse, Paolo G</au><au>Chesmore, Grace E</au><au>Chinone, Yuji</au><au>Choi, Steve K</au><au>Coppi, Gabriele</au><au>Crowley, Kevin D</au><au>Crowley, Kevin T</au><au>Cukierman, Ari</au><au>Devlin, Mark J</au><au>Dicker, Simon</au><au>Dober, Bradley</au><au>Duff, Shannon M</au><au>Dunkley, Jo</au><au>Fabbian, Giulio</au><au>Gallardo, Patricio A</au><au>Gerbino, Martina</au><au>Goeckner-Wald, Neil</au><au>Golec, Joseph E</au><au>Gudmundsson, Jon E</au><au>Healy, Erin E</au><au>Henderson, Shawn</au><au>Hill, Charles A</au><au>Hilton, Gene C</au><au>Shuay-Pwu Patty Ho</au><au>Howe, Logan A</au><au>Hubmayr, Johannes</au><au>Jeong, Oliver</au><au>Keating, Brian</au><au>Koopman, Brian J</au><au>Kuichi, Kenji</au><au>Kusaka, Akito</au><au>Lashner, Jacob</au><au>Lee, Adrian T</au><au>Li, Yaqiong</au><au>Limon, Michele</au><au>Lungu, Marius</au><au>Matsuda, Frederick</au><au>Mauskopf, Philip D</au><au>May, Andrew J</au><au>McCallum, Nialh</au><au>McMahon, Jeff</au><au>Nati, Federico</au><au>Niemack, Michael D</au><au>Orlowski-Scherer, John L</au><au>Parshley, Stephen C</au><au>Piccirillo, Lucio</au><au>Rao, Mayuri Sathyanarayana</au><au>Raum, Christopher</au><au>Salatino, Maria</au><au>Seibert, Joseph S</au><au>Sierra, Carlos</au><au>Silva-Feaver, Max</au><au>Simon, Sara M</au><au>Staggs, Suzanne T</au><au>Stevens, Jason R</au><au>Suzuki, Aritoki</au><au>Teply, Grant</au><au>Thornton, Robert</au><au>Tsai, Calvin</au><au>Ullom, Joel N</au><au>Vavagiakis, Eve M</au><au>Vissers, Michael R</au><au>Westbrook, Benjamin</au><au>Wollack, Edward J</au><au>Xu, Zhilei</au><au>Zhu, Ningfeng</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The Simons Observatory: Instrument Overview</atitle><jtitle>arXiv.org</jtitle><date>2018-08-14</date><risdate>2018</risdate><eissn>2331-8422</eissn><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.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1808.04493</doi><oa>free_for_read</oa></addata></record> |
| fulltext | fulltext |
| identifier | EISSN: 2331-8422 |
| ispartof | arXiv.org, 2018-08 |
| issn | 2331-8422 |
| language | eng |
| recordid | cdi_proquest_journals_2092785815 |
| source | ProQuest Publicly Available Content database |
| subjects | Aperture Apertures Big Bang theory Bolometers Cosmic microwave background Detectors Neutrinos Observatories Optical components Receivers Red shift Telescopes Universe Variations |
| title | The Simons Observatory: Instrument Overview |
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