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Autori principali: Ding, Shaoqing, Yao, Jinyuan, Bi, Zhen, Tran, Quyen, Liu, Bangzhi, Li, Qi, Trolier-McKinstry, Susan, Jackson, Thomas N., Liu, Ying
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2504.16987
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author Ding, Shaoqing
Yao, Jinyuan
Bi, Zhen
Tran, Quyen
Liu, Bangzhi
Li, Qi
Trolier-McKinstry, Susan
Jackson, Thomas N.
Liu, Ying
author_facet Ding, Shaoqing
Yao, Jinyuan
Bi, Zhen
Tran, Quyen
Liu, Bangzhi
Li, Qi
Trolier-McKinstry, Susan
Jackson, Thomas N.
Liu, Ying
contents Josephson diode (JD) effect found in Josephson tunnel junctions (JTJs) has attracted a great deal of attention due to its importance for developing superconducting circuitry based quantum technologies. So far, the highly desirable electrical control of the JD effect has not been demonstrated in any JTJ prepared by techniques used in semiconductor industry. We report the fabrication of JTJs featuring a composite tunnel barrier of Al$_2$O$_3$ and Hf$_{\mathrm{0.8}}$Zr$_\mathrm{0.2}$O$_2$ prepared by complementary-metal-oxide-semiconductor (CMOS) compatible atomic layer deposition (ALD). These JTJs were found to show the JD effect in nominally zero magnetic fields with the nonreciprocity controllable using an electric training current, yielding a surprisingly large diode efficiency not achieved previously. The quasiparticle tunneling, through which the Josephson coupling in a JTJ is established, was found to show no nonreciprocity. We attribute these observations to the simultaneous presence of positive and negative Josephson couplings, with the latter originating from indirect tunneling. The resulted spontaneous time-reversal symmetry breaking and the double-minima washboard potential for the ensemble averaged phase difference in the resistively and capacitively shunted junction (RCSJ) model are shown to fully account for the experimentally observed JD effect.
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id arxiv_https___arxiv_org_abs_2504_16987
institution arXiv
publishDate 2025
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spellingShingle Indirect Tunneling Enabled Spontaneous Time-Reversal Symmetry Breaking and Josephson Diode Effect in TiN/Al$_2$O$_3$/Hf$_{0.8}$Zr$_{0.2}$O$_2$/Nb tunnel junctions
Ding, Shaoqing
Yao, Jinyuan
Bi, Zhen
Tran, Quyen
Liu, Bangzhi
Li, Qi
Trolier-McKinstry, Susan
Jackson, Thomas N.
Liu, Ying
Superconductivity
Josephson diode (JD) effect found in Josephson tunnel junctions (JTJs) has attracted a great deal of attention due to its importance for developing superconducting circuitry based quantum technologies. So far, the highly desirable electrical control of the JD effect has not been demonstrated in any JTJ prepared by techniques used in semiconductor industry. We report the fabrication of JTJs featuring a composite tunnel barrier of Al$_2$O$_3$ and Hf$_{\mathrm{0.8}}$Zr$_\mathrm{0.2}$O$_2$ prepared by complementary-metal-oxide-semiconductor (CMOS) compatible atomic layer deposition (ALD). These JTJs were found to show the JD effect in nominally zero magnetic fields with the nonreciprocity controllable using an electric training current, yielding a surprisingly large diode efficiency not achieved previously. The quasiparticle tunneling, through which the Josephson coupling in a JTJ is established, was found to show no nonreciprocity. We attribute these observations to the simultaneous presence of positive and negative Josephson couplings, with the latter originating from indirect tunneling. The resulted spontaneous time-reversal symmetry breaking and the double-minima washboard potential for the ensemble averaged phase difference in the resistively and capacitively shunted junction (RCSJ) model are shown to fully account for the experimentally observed JD effect.
title Indirect Tunneling Enabled Spontaneous Time-Reversal Symmetry Breaking and Josephson Diode Effect in TiN/Al$_2$O$_3$/Hf$_{0.8}$Zr$_{0.2}$O$_2$/Nb tunnel junctions
topic Superconductivity
url https://arxiv.org/abs/2504.16987