Reversible modulation of superconductivity in thin-film NbSe2 via plasmon coupling

Cheng, Guanghui; Lin, Meng-Hsien; Chen, Hung-Ying; Wang, Dongli; Wang, Zheyan; Qin, Wei; Zhang, Zhenyu; Zeng, Changgan

doi:10.1038/s41467-024-50452-4

Nat Commun

2024

DOI: 10.1038/s41467-024-50452-4

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Reversible modulation of superconductivity in thin-film NbSe2 via plasmon coupling

Guanghui Cheng,

Meng-Hsien Lin,

Hung-Ying Chen

et al.

Abstract: In recent years, lightwave has stood out as an ultrafast, non-contact control knob for developing compact superconducting circuitry. However, the modulation efficiency is limited by the low photoresponse of superconductors. Plasmons, with the advantages of strong light-matter interaction, present a promising route to overcome the limitations. Here we achieve effective modulation of superconductivity in thin-film NbSe2 via near-field coupling to plasmons in gold nanoparticles. Upon resonant plasmon excitation, … Show more

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Thermally Deposited Pt/InSe/Nb₂O₅/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

Alharbi,

Qasrawi,

Algarni

2024

Physica Status Solidi (a)

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Herein, Pt/InSe/Nb2O5/Ag (ISNO) stacked layers are designed as multichannel 5 G/6 G network antennas and negative capacitance (NC) sources. The devices are fabricated using thermal deposition technique to coat Pt/InSe thin films with transparent Nb2O5 dielectric windows. While Pt thin films induce the crystallinity of InSe, the Nb2O5 layer remains amorphous. The impedance spectroscopy studies show that the Pt/InSe/Ag (IS) and (ISNO) antenna channels exhibit resonance–antiresonance peaks at driving frequencies of ≈0.4 and ≈1.1 GHz, respectively. Both the IS and ISNO antenna channels exhibit the NC effect in a wide range of frequency domain. In addition, ISNO antennas show signal transmission above 1.70 GHz with a return loss value of 28 dB and voltage standing wave ratios of 1.20. The range of frequencies over which the antenna performs well (bandwidth) extends from 1.54 to 1.80 GHz. Practical tests of one‐port and two‐port reflection/transmission using a network analyzer operative in the frequency domain of 0.01–6.0 GHz highlight the system's differing isolation and coupling characteristics at 2.43 and 6.0 GHz, respectively. The high levels of isolation at 6.0 GHz assure the suitability of the system for applications requiring minimal reverse transmission and high signal integrity. The NC effect, wide bandwidth, and high signal isolation characteristics are preferable in electronics and 5 G/6 G networks.

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Thermally Deposited Pt/InSe/Nb₂O₅/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

Alharbi,

Qasrawi,

Algarni

2024

Physica Status Solidi (a)

View full text Add to dashboard Cite

show abstract

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Reversible modulation of superconductivity in thin-film NbSe2 via plasmon coupling

Cited by 1 publication

References 50 publications

Thermally Deposited Pt/InSe/Nb₂O₅/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

Thermally Deposited Pt/InSe/Nb₂O₅/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

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Reversible modulation of superconductivity in thin-film NbSe2 via plasmon coupling

Cited by 1 publication

References 50 publications

Thermally Deposited Pt/InSe/Nb2O5/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

Thermally Deposited Pt/InSe/Nb2O5/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

Contact Info

Product

Resources

About

Thermally Deposited Pt/InSe/Nb₂O₅/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks

Thermally Deposited Pt/InSe/Nb₂O₅/Ag Stacked Layers Designed as Negative Capacitance Sources and Antennas for 5 G/6 G Networks