Estimation of the FR4 Microwave Dielectric Properties at Cryogenic Temperature for Quantum-Chip-Interface PCBs Design

Ad-hoc interface PCBs (Printed Circuit Boards) are today the standard connection between cryogenic cabling and quantum chips. Besides low-loss and low-temperature-dependent-dielectric-permittivity materials, Flame Resistance n.4 (FR4) provides a low-cost solution for fabrication of cryogenic PCBs. H...

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Veröffentlicht in:	IEEE transactions on instrumentation and measurement 2024-01, Vol.73, p.1-1
Hauptverfasser:	Paghi, Alessandro, Trupiano, Giacomo, Puglia, Claudio, Burgaud, Hannah, De Simoni, Giorgio, Greco, Angelo, Giazotto, Francesco
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuit boards Circuit design Complex permittivity Coplanar waveguides Cryoforming cryogenic Cryogenic temperature Cryogenics dielectric permittivity Dielectric properties dielectric resonator Dielectrics Fire resistance FR4 Laminates loss tangent Low cost Low temperature Low temperature resistance Microwave circuits Peak frequency Performance evaluation Permittivity Printed circuits quantum Resonance Resonant frequency resonator Resonators Sensitivity Substrates temperature Temperature dependence
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creator	Paghi, Alessandro Trupiano, Giacomo Puglia, Claudio Burgaud, Hannah De Simoni, Giorgio Greco, Angelo Giazotto, Francesco
description	Ad-hoc interface PCBs (Printed Circuit Boards) are today the standard connection between cryogenic cabling and quantum chips. Besides low-loss and low-temperature-dependent-dielectric-permittivity materials, Flame Resistance n.4 (FR4) provides a low-cost solution for fabrication of cryogenic PCBs. Here, we report on an effective way to evaluate the dielectric performance of a FR4 laminate used as substrate for cryogenic microwave PCBs. We designed a coplanar waveguide λ/2 open-circuit series resonator, and we fabricated the PCB using a low-cost manufacturing process, obtaining in-plane geometric features with maximum variations of 50-100 μm compared to the PCB design. Such a geometry allows to exploit the resonance peak of the resonator to measure the variation of the complex permittivity as a function of the temperature. The resonance peak frequency was used to estimate the real permittivity, achieving a sensitivity of -470 MHz and a resolution of 1.2×10 -2 . Similarly, the resonance peak magnitude was involved in the extrapolation of the loss tangent, reaching a sensitivity of ~-337 dB and a resolution of 1.6×10 -4 . For the FR4 laminate used, we estimated a 9 % reduction of the real permittivity and a 70 % reduction of the loss tangent in the temperature range from 300 to 4 K. The proposed approach can be immediately extended to the detection of cryogenic temperature-dependent dielectric performance of any kind of substrate.
doi_str_mv	10.1109/TIM.2024.3372217
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Besides low-loss and low-temperature-dependent-dielectric-permittivity materials, Flame Resistance n.4 (FR4) provides a low-cost solution for fabrication of cryogenic PCBs. Here, we report on an effective way to evaluate the dielectric performance of a FR4 laminate used as substrate for cryogenic microwave PCBs. We designed a coplanar waveguide λ/2 open-circuit series resonator, and we fabricated the PCB using a low-cost manufacturing process, obtaining in-plane geometric features with maximum variations of 50-100 μm compared to the PCB design. Such a geometry allows to exploit the resonance peak of the resonator to measure the variation of the complex permittivity as a function of the temperature. The resonance peak frequency was used to estimate the real permittivity, achieving a sensitivity of -470 MHz and a resolution of 1.2×10 -2 . Similarly, the resonance peak magnitude was involved in the extrapolation of the loss tangent, reaching a sensitivity of ~-337 dB and a resolution of 1.6×10 -4 . For the FR4 laminate used, we estimated a 9 % reduction of the real permittivity and a 70 % reduction of the loss tangent in the temperature range from 300 to 4 K. 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Besides low-loss and low-temperature-dependent-dielectric-permittivity materials, Flame Resistance n.4 (FR4) provides a low-cost solution for fabrication of cryogenic PCBs. Here, we report on an effective way to evaluate the dielectric performance of a FR4 laminate used as substrate for cryogenic microwave PCBs. We designed a coplanar waveguide λ/2 open-circuit series resonator, and we fabricated the PCB using a low-cost manufacturing process, obtaining in-plane geometric features with maximum variations of 50-100 μm compared to the PCB design. Such a geometry allows to exploit the resonance peak of the resonator to measure the variation of the complex permittivity as a function of the temperature. The resonance peak frequency was used to estimate the real permittivity, achieving a sensitivity of -470 MHz and a resolution of 1.2×10 -2 . Similarly, the resonance peak magnitude was involved in the extrapolation of the loss tangent, reaching a sensitivity of ~-337 dB and a resolution of 1.6×10 -4 . For the FR4 laminate used, we estimated a 9 % reduction of the real permittivity and a 70 % reduction of the loss tangent in the temperature range from 300 to 4 K. 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Besides low-loss and low-temperature-dependent-dielectric-permittivity materials, Flame Resistance n.4 (FR4) provides a low-cost solution for fabrication of cryogenic PCBs. Here, we report on an effective way to evaluate the dielectric performance of a FR4 laminate used as substrate for cryogenic microwave PCBs. We designed a coplanar waveguide λ/2 open-circuit series resonator, and we fabricated the PCB using a low-cost manufacturing process, obtaining in-plane geometric features with maximum variations of 50-100 μm compared to the PCB design. Such a geometry allows to exploit the resonance peak of the resonator to measure the variation of the complex permittivity as a function of the temperature. The resonance peak frequency was used to estimate the real permittivity, achieving a sensitivity of -470 MHz and a resolution of 1.2×10 -2 . Similarly, the resonance peak magnitude was involved in the extrapolation of the loss tangent, reaching a sensitivity of ~-337 dB and a resolution of 1.6×10 -4 . For the FR4 laminate used, we estimated a 9 % reduction of the real permittivity and a 70 % reduction of the loss tangent in the temperature range from 300 to 4 K. The proposed approach can be immediately extended to the detection of cryogenic temperature-dependent dielectric performance of any kind of substrate.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TIM.2024.3372217</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-1571-137X</orcidid><orcidid>https://orcid.org/0000-0001-7452-7276</orcidid><orcidid>https://orcid.org/0000-0002-2115-8013</orcidid><orcidid>https://orcid.org/0009-0000-7806-6083</orcidid><orcidid>https://orcid.org/0000-0002-8082-7694</orcidid><orcidid>https://orcid.org/0009-0000-8533-0380</orcidid><orcidid>https://orcid.org/0000-0003-1493-0148</orcidid></addata></record>
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subjects	Circuit boards Circuit design Complex permittivity Coplanar waveguides Cryoforming cryogenic Cryogenic temperature Cryogenics dielectric permittivity Dielectric properties dielectric resonator Dielectrics Fire resistance FR4 Laminates loss tangent Low cost Low temperature Low temperature resistance Microwave circuits Peak frequency Performance evaluation Permittivity Printed circuits quantum Resonance Resonant frequency resonator Resonators Sensitivity Substrates temperature Temperature dependence
title	Estimation of the FR4 Microwave Dielectric Properties at Cryogenic Temperature for Quantum-Chip-Interface PCBs Design
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