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  1. Article: Hexagonal boron nitride as a low-loss dielectric for superconducting quantum circuits and qubits.

    Wang, Joel I-J / Yamoah, Megan A / Li, Qing / Karamlou, Amir H / Dinh, Thao / Kannan, Bharath / Braumüller, Jochen / Kim, David / Melville, Alexander J / Muschinske, Sarah E / Niedzielski, Bethany M / Serniak, Kyle / Sung, Youngkyu / Winik, Roni / Yoder, Jonilyn L / Schwartz, Mollie E / Watanabe, Kenji / Taniguchi, Takashi / Orlando, Terry P /
    Gustavsson, Simon / Jarillo-Herrero, Pablo / Oliver, William D

    Nature materials

    2022  Volume 21, Issue 4, Page(s) 398–403

    Abstract: Dielectrics with low loss at microwave frequencies are imperative for high-coherence solid-state quantum computing platforms. Here we study the dielectric loss of hexagonal boron nitride (hBN) thin films in the microwave regime by measuring the quality ... ...

    Abstract Dielectrics with low loss at microwave frequencies are imperative for high-coherence solid-state quantum computing platforms. Here we study the dielectric loss of hexagonal boron nitride (hBN) thin films in the microwave regime by measuring the quality factor of parallel-plate capacitors (PPCs) made of NbSe
    Language English
    Publishing date 2022-01-27
    Publishing country England
    Document type Journal Article
    ZDB-ID 2088679-2
    ISSN 1476-4660 ; 1476-1122
    ISSN (online) 1476-4660
    ISSN 1476-1122
    DOI 10.1038/s41563-021-01187-w
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Observation of Electron Coherence and Fabry-Perot Standing Waves at a Graphene Edge.

    Allen, Monica T / Shtanko, Oles / Fulga, Ion C / Wang, Joel I-J / Nurgaliev, Daniyar / Watanabe, Kenji / Taniguchi, Takashi / Akhmerov, Anton R / Jarillo-Herrero, Pablo / Levitov, Leonid S / Yacoby, Amir

    Nano letters

    2017  Volume 17, Issue 12, Page(s) 7380–7386

    Abstract: Electron surface states in solids are typically confined to the outermost atomic layers and, due to surface disorder, have negligible impact on electronic transport. Here, we demonstrate a very different behavior for surface states in graphene. We probe ... ...

    Abstract Electron surface states in solids are typically confined to the outermost atomic layers and, due to surface disorder, have negligible impact on electronic transport. Here, we demonstrate a very different behavior for surface states in graphene. We probe the wavelike character of these states by Fabry-Perot (FP) interferometry and find that, in contrast to theoretical predictions, these states can propagate ballistically over micron-scale distances. This is achieved by embedding a graphene resonator formed by gate-defined p-n junctions within a graphene superconductor-normal-superconductor structure. By combining superconducting Aharanov-Bohm interferometry with Fourier methods, we visualize spatially resolved current flow and image FP resonances due to p-n-p cavity modes. The coherence of the standing-wave edge states is revealed by observing a new family of FP resonances, which coexist with the bulk resonances. The edge resonances have periodicity distinct from that of the bulk states manifest in a repeated spatial redistribution of current on and off the FP resonances. This behavior is accompanied by a modulation of the multiple Andreev reflection amplitude on-and-off resonance, indicating that electrons propagate ballistically in a fully coherent fashion. These results, which were not anticipated by theory, provide a practical route to developing electron analog of optical FP resonators at the graphene edge.
    Language English
    Publishing date 2017-11-08
    Publishing country United States
    Document type Journal Article ; Research Support, U.S. Gov't, Non-P.H.S.
    ISSN 1530-6992
    ISSN (online) 1530-6992
    DOI 10.1021/acs.nanolett.7b03156
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  3. Book ; Online: Hexagonal Boron Nitride (hBN) as a Low-loss Dielectric for Superconducting Quantum Circuits and Qubits

    Wang, Joel I-J. / Yamoah, Megan A. / Li, Qing / Karamlou, Amir / Dinh, Thao / Kannan, Bharath / Braumueller, Jochen / Kim, David / Melville, Alexander J. / Muschinske, Sarah E. / Niedzielski, Bethany M. / Serniak, Kyle / Sung, Youngkyu / Winik, Roni / Yoder, Jonilyn L. / Schwartz, Mollie / Watanabe, Kenji / Taniguchi, Takashi / Orlando, Terry P. /
    Gustavsson, Simon / Jarillo-Herrero, Pablo / Oliver, William D.

    2021  

    Abstract: Dielectrics with low loss at microwave frequencies are imperative for high-coherence solid-state quantum computing platforms. We study the dielectric loss of hexagonal boron nitride (hBN) thin films in the microwave regime by measuring the quality factor ...

    Abstract Dielectrics with low loss at microwave frequencies are imperative for high-coherence solid-state quantum computing platforms. We study the dielectric loss of hexagonal boron nitride (hBN) thin films in the microwave regime by measuring the quality factor of parallel-plate capacitors (PPCs) made of NbSe2-hBN-NbSe2 heterostructures integrated into superconducting circuits. The extracted microwave loss tangent of hBN is bounded to be at most in the mid-10-6 range in the low temperature, single-photon regime. We integrate hBN PPCs with aluminum Josephson junctions to realize transmon qubits with coherence times reaching 25 $\mu$s, consistent with the hBN loss tangent inferred from resonator measurements. The hBN PPC reduces the qubit feature size by approximately two-orders of magnitude compared to conventional all-aluminum coplanar transmons. Our results establish hBN as a promising dielectric for building high-coherence quantum circuits with substantially reduced footprint and, with a high energy participation that helps to reduce unwanted qubit cross-talk.

    Comment: Supplementary materials not included in this submission
    Keywords Condensed Matter - Mesoscale and Nanoscale Physics ; Condensed Matter - Materials Science ; Quantum Physics
    Subject code 535
    Publishing date 2021-08-31
    Publishing country us
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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