Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system

In this work, we present the design and manufacturing of the two multi-mode antenna arrays of the COSMO experiment and the preliminary beam pattern measurements of their fundamental mode compared with simulations. COSMO is a cryogenic Martin-Puplett Fourier Transform Spectrometer that aims at measur...

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Published in:Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XII
Main Authors: Manzan, Elenia, Albano, Lorenzo, Franceschet, Cristian, Battistelli, Elia S., De Bernardis, Paolo, Bersanelli, Marco, Cacciotti, Federico, Capponi, Alessandro, Columbro, Fabio, Conenna, Giulia, Coppi, Gabriele, Coppolecchia, Alessandro, D'Alessandro, Giuseppe, De Gasperis, Giancarlo, De Petris, Marco, Gervasi, Massimo, Isopi, Giovanni, Lamagna, Luca, Limonta, Andrea, Marchitelli, Elisabetta, Masi, Silvia, Mennella, Aniello, Montonati, Filippo, Nati, Federico, Occhiuzzi, Andrea, Paiella, Alessandro, Pettinari, Giorgio, Piacentini, Francesco, Piccirillo, Lucio, Pisano, Giampaolo, Tucker, Carole, Zannoni, Mario
Format: Conference Object
Language:English
Published: 2024
Subjects:
Cosmic Microwave Background
spectral distortions
multi-mode propagation
feed-horn antenna
Antarc*
Antarctica
Online Access:https://hdl.handle.net/11573/1721044
https://doi.org/10.1117/12.3018730
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author Manzan, Elenia
Albano, Lorenzo
Franceschet, Cristian
Battistelli, Elia S.
De Bernardis, Paolo
Bersanelli, Marco
Cacciotti, Federico
Capponi, Alessandro
Columbro, Fabio
Conenna, Giulia
Coppi, Gabriele
Coppolecchia, Alessandro
D'Alessandro, Giuseppe
De Gasperis, Giancarlo
De Petris, Marco
Gervasi, Massimo
Isopi, Giovanni
Lamagna, Luca
Limonta, Andrea
Marchitelli, Elisabetta
Masi, Silvia
Mennella, Aniello
Montonati, Filippo
Nati, Federico
Occhiuzzi, Andrea
Paiella, Alessandro
Pettinari, Giorgio
Piacentini, Francesco
Piccirillo, Lucio
Pisano, Giampaolo
Tucker, Carole
Zannoni, Mario
author2 Manzan, Elenia
Albano, Lorenzo
Franceschet, Cristian
Battistelli, Elia S.
De Bernardis, Paolo
Bersanelli, Marco
Cacciotti, Federico
Capponi, Alessandro
Columbro, Fabio
Conenna, Giulia
Coppi, Gabriele
Coppolecchia, Alessandro
D'Alessandro, Giuseppe
De Gasperis, Giancarlo
De Petris, Marco
Gervasi, Massimo
Isopi, Giovanni
Lamagna, Luca
Limonta, Andrea
Marchitelli, Elisabetta
Masi, Silvia
Mennella, Aniello
Montonati, Filippo
Nati, Federico
Occhiuzzi, Andrea
Paiella, Alessandro
Pettinari, Giorgio
Piacentini, Francesco
Piccirillo, Lucio
Pisano, Giampaolo
Tucker, Carole
Zannoni, Mario
author_facet Manzan, Elenia
Albano, Lorenzo
Franceschet, Cristian
Battistelli, Elia S.
De Bernardis, Paolo
Bersanelli, Marco
Cacciotti, Federico
Capponi, Alessandro
Columbro, Fabio
Conenna, Giulia
Coppi, Gabriele
Coppolecchia, Alessandro
D'Alessandro, Giuseppe
De Gasperis, Giancarlo
De Petris, Marco
Gervasi, Massimo
Isopi, Giovanni
Lamagna, Luca
Limonta, Andrea
Marchitelli, Elisabetta
Masi, Silvia
Mennella, Aniello
Montonati, Filippo
Nati, Federico
Occhiuzzi, Andrea
Paiella, Alessandro
Pettinari, Giorgio
Piacentini, Francesco
Piccirillo, Lucio
Pisano, Giampaolo
Tucker, Carole
Zannoni, Mario
author_sort Manzan, Elenia
collection Sapienza Università di Roma: CINECA IRIS
container_start_page 97
container_title Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XII
description In this work, we present the design and manufacturing of the two multi-mode antenna arrays of the COSMO experiment and the preliminary beam pattern measurements of their fundamental mode compared with simulations. COSMO is a cryogenic Martin-Puplett Fourier Transform Spectrometer that aims at measuring the isotropic y-type spectral distortion of the Cosmic Microwave Background from Antarctica, by performing differential measurements between the sky and an internal, cryogenic reference blackbody. To reduce the atmospheric contribution, a spinning wedge mirror performs fast sky-dips at varying elevations while fast, low-noise Kinetic Inductance detectors scan the interferogram. Two arrays of antennas couple the radiation to the detectors. Each array consists of nine smooth-walled multi-mode feed-horns, operating in the 120−180 GHz and 210−300 GHz range, respectively. The multi-mode propagation helps increase the instrumental sensitivity without employing large focal planes with hundreds of detectors. The two arrays have a step-linear and a linear profile, respectively, and are obtained by superimposing aluminum plates made with CNC milling. The simulated multi-mode beam pattern has a { 20° − 26° FWHM for the low-frequency array and {16° FWHM for the high-frequency one. The side lobes are below −15 dB. To characterize the antenna response, we measured the beam pattern of the fundamental mode using a Vector Network Analyzer, in far-field conditions inside an anechoic chamber at room temperature. We completed the measurements of the low-frequency array and found a good agreement with the simulations. We also identified a few non-idealities that we attribute to the measuring setup and will further investigate. A comprehensive multi-mode measurement will be feasible at cryogenic temperature once the full receiver is integrated.
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Antarctica
genre_facet Antarc*
Antarctica
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op_doi https://doi.org/10.1117/12.3018730
op_relation ispartofbook:Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XII
SPIE
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spelling ftunivromairis:oai:iris.uniroma1.it:11573/1721044 2025-01-16T19:42:59+00:00 Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system Manzan, Elenia Albano, Lorenzo Franceschet, Cristian Battistelli, Elia S. De Bernardis, Paolo Bersanelli, Marco Cacciotti, Federico Capponi, Alessandro Columbro, Fabio Conenna, Giulia Coppi, Gabriele Coppolecchia, Alessandro D'Alessandro, Giuseppe De Gasperis, Giancarlo De Petris, Marco Gervasi, Massimo Isopi, Giovanni Lamagna, Luca Limonta, Andrea Marchitelli, Elisabetta Masi, Silvia Mennella, Aniello Montonati, Filippo Nati, Federico Occhiuzzi, Andrea Paiella, Alessandro Pettinari, Giorgio Piacentini, Francesco Piccirillo, Lucio Pisano, Giampaolo Tucker, Carole Zannoni, Mario Manzan, Elenia Albano, Lorenzo Franceschet, Cristian Battistelli, Elia S. De Bernardis, Paolo Bersanelli, Marco Cacciotti, Federico Capponi, Alessandro Columbro, Fabio Conenna, Giulia Coppi, Gabriele Coppolecchia, Alessandro D'Alessandro, Giuseppe De Gasperis, Giancarlo De Petris, Marco Gervasi, Massimo Isopi, Giovanni Lamagna, Luca Limonta, Andrea Marchitelli, Elisabetta Masi, Silvia Mennella, Aniello Montonati, Filippo Nati, Federico Occhiuzzi, Andrea Paiella, Alessandro Pettinari, Giorgio Piacentini, Francesco Piccirillo, Lucio Pisano, Giampaolo Tucker, Carole Zannoni, Mario 2024 https://hdl.handle.net/11573/1721044 https://doi.org/10.1117/12.3018730 eng eng ispartofbook:Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XII SPIE volume:13102 https://hdl.handle.net/11573/1721044 doi:10.1117/12.3018730 Cosmic Microwave Background spectral distortions multi-mode propagation feed-horn antenna info:eu-repo/semantics/conferenceObject 2024 ftunivromairis https://doi.org/10.1117/12.3018730 2024-10-10T00:03:20Z In this work, we present the design and manufacturing of the two multi-mode antenna arrays of the COSMO experiment and the preliminary beam pattern measurements of their fundamental mode compared with simulations. COSMO is a cryogenic Martin-Puplett Fourier Transform Spectrometer that aims at measuring the isotropic y-type spectral distortion of the Cosmic Microwave Background from Antarctica, by performing differential measurements between the sky and an internal, cryogenic reference blackbody. To reduce the atmospheric contribution, a spinning wedge mirror performs fast sky-dips at varying elevations while fast, low-noise Kinetic Inductance detectors scan the interferogram. Two arrays of antennas couple the radiation to the detectors. Each array consists of nine smooth-walled multi-mode feed-horns, operating in the 120−180 GHz and 210−300 GHz range, respectively. The multi-mode propagation helps increase the instrumental sensitivity without employing large focal planes with hundreds of detectors. The two arrays have a step-linear and a linear profile, respectively, and are obtained by superimposing aluminum plates made with CNC milling. The simulated multi-mode beam pattern has a { 20° − 26° FWHM for the low-frequency array and {16° FWHM for the high-frequency one. The side lobes are below −15 dB. To characterize the antenna response, we measured the beam pattern of the fundamental mode using a Vector Network Analyzer, in far-field conditions inside an anechoic chamber at room temperature. We completed the measurements of the low-frequency array and found a good agreement with the simulations. We also identified a few non-idealities that we attribute to the measuring setup and will further investigate. A comprehensive multi-mode measurement will be feasible at cryogenic temperature once the full receiver is integrated. Conference Object Antarc* Antarctica Sapienza Università di Roma: CINECA IRIS Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XII 97
spellingShingle Cosmic Microwave Background
spectral distortions
multi-mode propagation
feed-horn antenna
Manzan, Elenia
Albano, Lorenzo
Franceschet, Cristian
Battistelli, Elia S.
De Bernardis, Paolo
Bersanelli, Marco
Cacciotti, Federico
Capponi, Alessandro
Columbro, Fabio
Conenna, Giulia
Coppi, Gabriele
Coppolecchia, Alessandro
D'Alessandro, Giuseppe
De Gasperis, Giancarlo
De Petris, Marco
Gervasi, Massimo
Isopi, Giovanni
Lamagna, Luca
Limonta, Andrea
Marchitelli, Elisabetta
Masi, Silvia
Mennella, Aniello
Montonati, Filippo
Nati, Federico
Occhiuzzi, Andrea
Paiella, Alessandro
Pettinari, Giorgio
Piacentini, Francesco
Piccirillo, Lucio
Pisano, Giampaolo
Tucker, Carole
Zannoni, Mario
Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system
title Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system
title_full Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system
title_fullStr Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system
title_full_unstemmed Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system
title_short Measuring the CMB spectral distortions with COSMO: the multi-mode antenna system
title_sort measuring the cmb spectral distortions with cosmo: the multi-mode antenna system
topic Cosmic Microwave Background
spectral distortions
multi-mode propagation
feed-horn antenna
topic_facet Cosmic Microwave Background
spectral distortions
multi-mode propagation
feed-horn antenna
url https://hdl.handle.net/11573/1721044
https://doi.org/10.1117/12.3018730

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