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Autori principali: An, Sung Jin, Kim, Jisu, Jung, Myung-Chul, Park, Kidong, Park, Jeunghee, Shim, Seung-Bo, Kim, Hakseong, Siu, Zhuo Bin, Jalil, Mansoor B. A., Schönenberger, Christian, Myoung, Nojoon, Seo, Jungpil, Jung, Minkyung
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2509.16934
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author An, Sung Jin
Kim, Jisu
Jung, Myung-Chul
Park, Kidong
Park, Jeunghee
Shim, Seung-Bo
Kim, Hakseong
Siu, Zhuo Bin
Jalil, Mansoor B. A.
Schönenberger, Christian
Myoung, Nojoon
Seo, Jungpil
Jung, Minkyung
author_facet An, Sung Jin
Kim, Jisu
Jung, Myung-Chul
Park, Kidong
Park, Jeunghee
Shim, Seung-Bo
Kim, Hakseong
Siu, Zhuo Bin
Jalil, Mansoor B. A.
Schönenberger, Christian
Myoung, Nojoon
Seo, Jungpil
Jung, Minkyung
contents We demonstrate phase-coherent transport in suspended long-channel Cd3As2 nanowire devices using both direct current (DC) transport and radio-frequency (RF) reflectometry measurements. By integrating Cd3As2 nanowires with on-chip superconducting LC resonators, we achieve sensitive detection of both resistance and quantum capacitance variations. In a long-channel device (L ~ 1.8 μm), clear Fabry-Pérot (FP) interference patterns are observed in both DC and RF measurements, provide strong evidence for ballistic electron transport. RF reflectometry reveals gate-dependent modulations of the resonance frequency, arising from quantum capacitance oscillations induced by changes in the density of states and FP interference. These oscillations exhibit a quasi-periodic structure that closely correlates with the FP patterns in DC transport measurements. In another device of a Cd3As2 nanowire Josephson junction (L ~ 730 nm, superconducting Al contacts), FP interference patterns are too weak to be resolved in DC conductance but are detectable using RF reflectometry. These results demonstrate the high quality of our Cd3As2 nanowires and the versatility of RF reflectometry, establishing their potential for applications in topological quantum devices, such as Andreev qubits or gatemon architectures.
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publishDate 2025
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spellingShingle Radio-Frequency Detection of Fabry-Pérot Interference and Quantum Capacitance in Long-Channel Three-Dimensional Dirac Semimetal Cd3As2 Nanowires
An, Sung Jin
Kim, Jisu
Jung, Myung-Chul
Park, Kidong
Park, Jeunghee
Shim, Seung-Bo
Kim, Hakseong
Siu, Zhuo Bin
Jalil, Mansoor B. A.
Schönenberger, Christian
Myoung, Nojoon
Seo, Jungpil
Jung, Minkyung
Mesoscale and Nanoscale Physics
We demonstrate phase-coherent transport in suspended long-channel Cd3As2 nanowire devices using both direct current (DC) transport and radio-frequency (RF) reflectometry measurements. By integrating Cd3As2 nanowires with on-chip superconducting LC resonators, we achieve sensitive detection of both resistance and quantum capacitance variations. In a long-channel device (L ~ 1.8 μm), clear Fabry-Pérot (FP) interference patterns are observed in both DC and RF measurements, provide strong evidence for ballistic electron transport. RF reflectometry reveals gate-dependent modulations of the resonance frequency, arising from quantum capacitance oscillations induced by changes in the density of states and FP interference. These oscillations exhibit a quasi-periodic structure that closely correlates with the FP patterns in DC transport measurements. In another device of a Cd3As2 nanowire Josephson junction (L ~ 730 nm, superconducting Al contacts), FP interference patterns are too weak to be resolved in DC conductance but are detectable using RF reflectometry. These results demonstrate the high quality of our Cd3As2 nanowires and the versatility of RF reflectometry, establishing their potential for applications in topological quantum devices, such as Andreev qubits or gatemon architectures.
title Radio-Frequency Detection of Fabry-Pérot Interference and Quantum Capacitance in Long-Channel Three-Dimensional Dirac Semimetal Cd3As2 Nanowires
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2509.16934