A High-Sensitivity Fourier Transform Spectrometer for Cosmic Microwave Background Observations

Miguel-Hernández, Javier De; Hoyland, R. J.; Renasco, M. F. Gomez; Rubiño-Martín, J. A.; Viera-Curbelo, T.

doi:10.1109/tim.2019.2945745

Cited by 7 publications

(4 citation statements)

References 22 publications

(43 reference statements)

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“…several areas to explore the full potential of the meta-horn, such as shaping the horn with a smart curve profile instead of a conical profile (e.g., Gaussian [15]) or adding length to the antenna (thus increasing the number of meta-rings) in combination with a further computer aided optimization. This would make it possible to simultaneously cover both the K 𝑎 and K 𝑢 bands with a single receiver for satellite communications, or to cover broader bands reducing the complexity and enhancing the sensitivity of telescopes for radio astronomy [19,20].…”

Section: Discussionmentioning

confidence: 99%

A metamaterial with applications in broad band antennas used in radio astronomy and satellite communications

Miguel

Franceschet²,

Realini³

et al. 2022

J. Inst.

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Electromagnetic metamaterials at microwave frequencies are well established in industry and research. Recent work has shown how a specific kind of metallic metamaterial can contribute towards improving the performance of the feedhorn antennas used in radio astronomy and satellite telecommunications. In this article, we discuss an innovative type of meta-ring of remarkable manufacturability, able to improve the state of the art in these fields. A pioneering meta-horn antenna formed of meta-rings is then fabricated and characterized in the laboratory. It shows an excellent feature on an octave bandwidth, especially in terms of cross-polarization, a key figure of merit in both radio astronomy and telecommunications, and also side-lobe level, return-loss and gain.

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Section: Discussionmentioning

confidence: 99%

A metamaterial with applications in broad band antennas used in radio astronomy and satellite communications

Miguel

Franceschet²,

Realini³

et al. 2022

J. Inst.

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show abstract

“…Different areas to explore the full potential of the meta-horn are: shaping the horn with a smart curve profile instead of a conical profile (e.g., Gaussian [16]), adding length to the antenna (thus increasing the number of meta-rings) in combination with a further computer aided optimization. This could render the goal of simultaneously covering both the K a and K u bands with a single receiver for satellite communications closer, or to cover broader bands reducing the complexity and enhancing the sensitivity of telescopes for radio astronomy ( [17], [18]).…”

Section: Discussionmentioning

confidence: 99%

A metamaterial with applications in broad band antennas used in radio astronomy and satellite communications

De Miguel,

Franceschet,

Realini

et al. 2021

Preprint

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Electromagnetic metamaterials at microwave frequencies are well established in industry and research. Recent work has shown how a specific kind of metallic metamaterial can contribute towards improving the performance of the feedhorn antennas used in radio astronomy and satellite telecommunications. In this article, we justify this argument, finding an innovative type of meta-ring of remarkable manufacturability with a potential to improve the state of the art in these fields. A pioneering meta-horn antenna formed of meta-rings is then fabricated and characterized in the laboratory, showing an excellent feature on an octave bandwidth, especially in terms of cross-polarization, a key figure of merit in both radio astronomy and telecommunications; and also side-lobe level, return-loss and gain.

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“…This would facilitate the directional observation of relativistic axions, where the line width of the axion 19 (or DP) may be considerably wide, approaching ∆ν a /ν 0.5 in some cases. This scheme (e.g., see [110]) is not shown in the figure for simplicity.…”

Section: Telescope Descriptionmentioning

confidence: 99%

“…Hence, the mitigation of low frequency gain fluctuations caused by thermal and 1/f noise contributions is significant. Receivers could be pointed to cold-loads as a reference calibration signal, if necessary (e.g., see [77] and references therein). This might render the directional observation of relativistic axions possible, even in specific cases where the line width of the axion 17 (or DP) may be considerably wide, approaching ∆ν a /ν ∼ 1 in extreme cases.…”

Section: Jcap04(2021)075mentioning

confidence: 99%

A dark matter telescope probing the 6 to 60 GHz band

Miguel-Hernández

2021

J. Cosmol. Astropart. Phys.

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In this article we present the Dark-photons&Axion-Like particles Interferometer (DALI), a novel experiment designed for the detection of photon-mixing cold dark matter in the microwave band between 6 and 60 GHz. DALI is a haloscope for the simultaneous search for axions, axion-like particles and dark photons, with a number of novelties that make it unique. First, it is a dark matter telescope, with a capacity for pointing, tracking and rastering objects and areas in the sky. This potentially allows one to detect relativistic dark matter particles, substructures and flows, without compromising the simultaneous scanning for dark matter relic particles present in the laboratory. Second, it has been designed using commercial technology. This will allow feasible manufacture at a reasonable cost, thereby mitigating the need for R&D and facilitating maintenance. Finally, it benefits from a high sensitivity over a broad band of frequencies with only minimal reconfiguration.

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A High-Sensitivity Fourier Transform Spectrometer for Cosmic Microwave Background Observations

Cited by 7 publications

References 22 publications

A metamaterial with applications in broad band antennas used in radio astronomy and satellite communications

A metamaterial with applications in broad band antennas used in radio astronomy and satellite communications

A metamaterial with applications in broad band antennas used in radio astronomy and satellite communications

A dark matter telescope probing the 6 to 60 GHz band

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