Imaging and Modeling Data from the Hydrogen Epoch of Reionization Array
We analyze data from the Hydrogen Epoch of Reionization Array. This is the third in a series of papers on the closure phase delay-spectrum technique designed to detect the HI 21cm emission from cosmic reionization. We present the details of the data and models employed in the power spectral analysis...
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| creator | C L Carilli{1 } N Thyagarajan{1} J Kent{2} B Nikolic{2} K Gale-Sides{2} N S Kern{3} G Bernardi{4 A Mesinger{7} S Matika{5} the HERA TEAM {1}{National Radio Astronomy Observatory P O Box 0 Socorro NM 87801 USA ccarilli@nrao edu ORCID 0000-0001-6647-3861} {2}{Astrophysics Group Cavendish Laboratory JJ Thomson Avenue Cambridge CB3 0HE UK} {3}{Department of Astronomy University of California Berkeley CA} {4}{INAF-Istituto di Radioastronomia via Gobetti 101 40129 Bologna Italy} {5}{Department of Physics Electronics Rhodes University PO Box 94 Grahamstown 6140 South Africa} {6}{The South African Radio Astronomy Observatory 2 Fir Street Black River Park Observatory 7925 South Africa} {7}{Scuola Normale Superiore 56126 Pisa PI Italy} |
| description | We analyze data from the Hydrogen Epoch of Reionization Array. This is the third in a series of papers on the closure phase delay-spectrum technique designed to detect the HI 21cm emission from cosmic reionization. We present the details of the data and models employed in the power spectral analysis, and discuss limitations to the process. We compare images and visibility spectra made with HERA data, to parallel quantities generated from sky models based on the GLEAM survey, incorporating the HERA telescope model. We find reasonable agreement between images made from HERA data, with those generated from the models, down to the confusion level. For the visibility spectra, there is broad agreement between model and data across the full band of \(\sim 80\)MHz. However, models with only GLEAM sources do not reproduce a roughly sinusoidal spectral structure at the tens of percent level seen in the observed visibility spectra on scales \(\sim 10\) MHz on 29 m baselines. We find that this structure is likely due to diffuse Galactic emission, predominantly the Galactic plane, filling the far sidelobes of the antenna primary beam. We show that our current knowledge of the frequency dependence of the diffuse sky radio emission, and the primary beam at large zenith angles, is inadequate to provide an accurate reproduction of the diffuse structure in the models. We discuss implications due to this missing structure in the models, including calibration, and in the search for the HI 21cm signal, as well as possible mitigation techniques. |
| doi_str_mv | 10.48550/arxiv.2002.07692 |
| format | Article |
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This is the third in a series of papers on the closure phase delay-spectrum technique designed to detect the HI 21cm emission from cosmic reionization. We present the details of the data and models employed in the power spectral analysis, and discuss limitations to the process. We compare images and visibility spectra made with HERA data, to parallel quantities generated from sky models based on the GLEAM survey, incorporating the HERA telescope model. We find reasonable agreement between images made from HERA data, with those generated from the models, down to the confusion level. For the visibility spectra, there is broad agreement between model and data across the full band of \(\sim 80\)MHz. However, models with only GLEAM sources do not reproduce a roughly sinusoidal spectral structure at the tens of percent level seen in the observed visibility spectra on scales \(\sim 10\) MHz on 29 m baselines. We find that this structure is likely due to diffuse Galactic emission, predominantly the Galactic plane, filling the far sidelobes of the antenna primary beam. We show that our current knowledge of the frequency dependence of the diffuse sky radio emission, and the primary beam at large zenith angles, is inadequate to provide an accurate reproduction of the diffuse structure in the models. We discuss implications due to this missing structure in the models, including calibration, and in the search for the HI 21cm signal, as well as possible mitigation techniques.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.2002.07692</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Ionization ; Physics - Instrumentation and Methods for Astrophysics ; Radio emission ; Sidelobes ; Sky models ; Sky surveys (astronomy) ; Spectra ; Spectrum analysis ; Visibility</subject><ispartof>arXiv.org, 2020-02</ispartof><rights>2020. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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This is the third in a series of papers on the closure phase delay-spectrum technique designed to detect the HI 21cm emission from cosmic reionization. We present the details of the data and models employed in the power spectral analysis, and discuss limitations to the process. We compare images and visibility spectra made with HERA data, to parallel quantities generated from sky models based on the GLEAM survey, incorporating the HERA telescope model. We find reasonable agreement between images made from HERA data, with those generated from the models, down to the confusion level. For the visibility spectra, there is broad agreement between model and data across the full band of \(\sim 80\)MHz. However, models with only GLEAM sources do not reproduce a roughly sinusoidal spectral structure at the tens of percent level seen in the observed visibility spectra on scales \(\sim 10\) MHz on 29 m baselines. We find that this structure is likely due to diffuse Galactic emission, predominantly the Galactic plane, filling the far sidelobes of the antenna primary beam. We show that our current knowledge of the frequency dependence of the diffuse sky radio emission, and the primary beam at large zenith angles, is inadequate to provide an accurate reproduction of the diffuse structure in the models. We discuss implications due to this missing structure in the models, including calibration, and in the search for the HI 21cm signal, as well as possible mitigation techniques.</description><subject>Ionization</subject><subject>Physics - Instrumentation and Methods for Astrophysics</subject><subject>Radio emission</subject><subject>Sidelobes</subject><subject>Sky models</subject><subject>Sky surveys (astronomy)</subject><subject>Spectra</subject><subject>Spectrum analysis</subject><subject>Visibility</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>BENPR</sourceid><sourceid>GOX</sourceid><recordid>eNotj9FrwjAYxMNgMHH-AXtaYM91Sb4krY_inAqOwfC9fE3SWrFNl9ax7q-36p6O447jfoQ8cTaViVLsFcNv-TMVjIkpi_VM3JGRAOBRIoV4IJO2PbAh07FQCkZktamwKOuCYm3ph7fueDFv2CHNg69ot3d03dvgC1fTZePNnvqcfrnS1-UfdoPQeQjYP5L7HI-tm_zrmOzel7vFOtp-rjaL-TZCJWQEOgMnIeZcaq5yOUPImEYhRSaN1sbxDF2cO2OAKSuNtbHJULPMJiwGBzAmz7fZK2XahLLC0KcX2vRKOzRebo0m-O-Ta7v04E-hHj6lAlTCIdEg4QwW81bm</recordid><startdate>20200218</startdate><enddate>20200218</enddate><creator>C L Carilli{1</creator><creator>}</creator><creator>N Thyagarajan{1}</creator><creator>J Kent{2}</creator><creator>B Nikolic{2}</creator><creator>K Gale-Sides{2}</creator><creator>N S Kern{3}</creator><creator>G Bernardi{4</creator><creator>A Mesinger{7}</creator><creator>S Matika{5}</creator><creator>the HERA TEAM {1}{National Radio Astronomy Observatory</creator><creator>P O Box 0</creator><creator>Socorro</creator><creator>NM 87801</creator><creator>USA</creator><creator>ccarilli@nrao edu</creator><creator>ORCID</creator><creator>0000-0001-6647-3861} {2}{Astrophysics Group</creator><creator>Cavendish Laboratory</creator><creator>JJ Thomson Avenue</creator><creator>Cambridge CB3 0HE</creator><creator>UK} {3}{Department of Astronomy</creator><creator>University of California</creator><creator>Berkeley</creator><creator>CA} {4}{INAF-Istituto di Radioastronomia</creator><creator>via Gobetti 101</creator><creator>40129</creator><creator>Bologna</creator><creator>Italy} {5}{Department of Physics</creator><creator>Electronics</creator><creator>Rhodes University</creator><creator>PO Box 94</creator><creator>Grahamstown</creator><creator>6140</creator><creator>South Africa} {6}{The South African Radio Astronomy Observatory</creator><creator>2 Fir Street</creator><creator>Black River Park</creator><creator>Observatory</creator><creator>7925</creator><creator>South Africa} {7}{Scuola Normale Superiore</creator><creator>56126 Pisa</creator><creator>PI</creator><creator>Italy}</creator><general>Cornell University Library, arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20200218</creationdate><title>Imaging and Modeling Data from the Hydrogen Epoch of Reionization Array</title><author>C L Carilli{1 ; } ; N Thyagarajan{1} ; J Kent{2} ; B Nikolic{2} ; K Gale-Sides{2} ; N S Kern{3} ; G Bernardi{4 ; A Mesinger{7} ; S Matika{5} ; the HERA TEAM {1}{National Radio Astronomy Observatory ; P O Box 0 ; Socorro ; NM 87801 ; USA ; ccarilli@nrao edu ; ORCID ; 0000-0001-6647-3861} {2}{Astrophysics Group ; Cavendish Laboratory ; JJ Thomson Avenue ; Cambridge CB3 0HE ; UK} {3}{Department of Astronomy ; University of California ; Berkeley ; CA} {4}{INAF-Istituto di Radioastronomia ; via Gobetti 101 ; 40129 ; Bologna ; Italy} {5}{Department of Physics ; Electronics ; Rhodes University ; PO Box 94 ; Grahamstown ; 6140 ; South Africa} {6}{The South African Radio Astronomy Observatory ; 2 Fir Street ; Black River Park ; Observatory ; 7925 ; South Africa} {7}{Scuola Normale Superiore ; 56126 Pisa ; PI ; Italy}</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a524-36b3e437114615f49a3b06a242b4c66ce1bae7fecc305d4cdd7cba60bd8073e33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Ionization</topic><topic>Physics - 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This is the third in a series of papers on the closure phase delay-spectrum technique designed to detect the HI 21cm emission from cosmic reionization. We present the details of the data and models employed in the power spectral analysis, and discuss limitations to the process. We compare images and visibility spectra made with HERA data, to parallel quantities generated from sky models based on the GLEAM survey, incorporating the HERA telescope model. We find reasonable agreement between images made from HERA data, with those generated from the models, down to the confusion level. For the visibility spectra, there is broad agreement between model and data across the full band of \(\sim 80\)MHz. However, models with only GLEAM sources do not reproduce a roughly sinusoidal spectral structure at the tens of percent level seen in the observed visibility spectra on scales \(\sim 10\) MHz on 29 m baselines. We find that this structure is likely due to diffuse Galactic emission, predominantly the Galactic plane, filling the far sidelobes of the antenna primary beam. We show that our current knowledge of the frequency dependence of the diffuse sky radio emission, and the primary beam at large zenith angles, is inadequate to provide an accurate reproduction of the diffuse structure in the models. We discuss implications due to this missing structure in the models, including calibration, and in the search for the HI 21cm signal, as well as possible mitigation techniques.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.2002.07692</doi><oa>free_for_read</oa></addata></record> |
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| ispartof | arXiv.org, 2020-02 |
| issn | 2331-8422 |
| language | eng |
| recordid | cdi_arxiv_primary_2002_07692 |
| source | Freely Accessible Journals; arXiv.org |
| subjects | Ionization Physics - Instrumentation and Methods for Astrophysics Radio emission Sidelobes Sky models Sky surveys (astronomy) Spectra Spectrum analysis Visibility |
| title | Imaging and Modeling Data from the Hydrogen Epoch of Reionization Array |
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