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Epitaxially-grown superconductor/dielectric/superconductor trilayers have the potential to form high-performance superconducting quantum devices and may even allow scalable superconducting quantum computing with low-surface-area qubits such…

Applied Physics · Physics 2021-09-01 C. R. H. McRae , A. McFadden , R. Zhao , H. Wang , J. L. Long , T. Zhao , S. Park , M. Bal , C. J. Palmstrøm , D. P. Pappas

We have investigated dielectric losses in amorphous SiO thin films under operating conditions of superconducting qubits (mK temperatures and low microwave powers). For this purpose, we have developed a broadband measurement setup employing…

Superconductivity · Physics 2014-07-04 S. T. Skacel , Ch. Kaiser , S. Wuensch , H. Rotzinger , A. Lukashenko , M. Jerger , G. Weiss , M. Siegel , A. V. Ustinov

The performance of superconducting circuits for quantum computing is limited by materials losses. In particular, coherence times are typically bounded by two-level system (TLS) losses at single photon powers and millikelvin temperatures.…

Two-level systems (TLS) are an important, if not dominant, source of loss and noise for superconducting resonators such as those used in kinetic inductance detectors and some quantum information science platforms. They are similarly…

Instrumentation and Detectors · Physics 2024-03-07 Fabien Defrance , Andrew D. Beyer , Shibo Shu , Jack Sayers , Sunil R. Golwala

Two-level systems (TLS) are known to be a dominant source of dissipation and decoherence in superconducting qubits. Superconducting resonators provide a convenient way to study TLS-induced loss due to easier design and fabrication in…

Material research is a key frontier in advancing superconducting qubit and circuit performance. In this work, we develop a simple and broadly applicable framework for accurately characterizing two-level system (TLS) loss using internal…

Superconductivity · Physics 2025-07-17 Guy Moshel , Sergei Masis , Moshe Schechter , Shay Hacohen-Gourgy

Superconducting resonators are widely used in many applications such as qubit readout for quantum computing, and kinetic inductance detectors. These resonators are susceptible to numerous loss and noise mechanisms, especially the…

Superconductivity · Physics 2023-11-30 Tamin Tai , Jingnan Cai , Steven M. Anlage

The microwave performance of amorphous dielectric materials at very low temperatures and very low excitation strengths displays significant excess loss. Here, we present the loss tangents of some common amorphous and crystalline…

We perform an experimental and numerical study of dielectric loss in superconducting microwave resonators at low temperature. Dielectric loss, due to two-level systems, is a limiting factor in several applications, e.g. superconducting…

Applied Physics · Physics 2020-01-29 David Niepce , Jonathan Burnett , Martí Gutierrez Latorre , Jonas Bylander

Superconducting qubits are a leading system for realizing large scale quantum processors, but overall gate fidelities suffer from coherence times limited by microwave dielectric loss. Recently discovered tantalum-based qubits exhibit record…

Superconducting quantum computing architectures comprise resonators and qubits that experience energy loss due to two-level systems (TLS) in bulk and interfacial dielectrics. Understanding these losses is critical to improving performance…

As superconducting kinetic inductance detectors (KIDs) continue to grow in popularity for sensitive submillimeter detection and other applications, there is a drive to advance toward lower-loss devices. We present measurements of diagnostic…

Tow-level system (TLS) loss in amorphous dielectric materials has been intensively studied at millikelvin temperatures due to its impact on superconducting qubit devices and incoherent detectors. However, the significance of TLS loss in…

Instrumentation and Methods for Astrophysics · Physics 2024-07-12 Wenelei Shan , Shohei Ezaki

This work presents a suite of measurement techniques for characterizing the dielectric loss tangent across a wide frequency range from $\sim$1 GHz to 150 GHz using the same test chip. In the first method, we fit data from a microwave…

Instrumentation and Methods for Astrophysics · Physics 2023-06-21 Z. Pan , P. S. Barry , T. Cecil , C. Albert , A. N. Bender , C. L. Chang , R. Gualtieri , J. Hood , J. Li , J. Zhang , M. Lisovenko , V. Novosad , G. Wang , V. Yefremenko

While several experiments claim that two-level system (TLS) defects in amorphous surfaces/interfaces are responsible for energy relaxation in superconducting resonators and qubits, none can provide quantitative explanation of their data in…

Quantum Physics · Physics 2023-02-03 N. Gorgichuk , T. Junginger , R. de Sousa

We present a method to systematically locate and extract capacitive and inductive losses in superconducting resonators at microwave frequencies by use of mixed-material, lumped element devices. In these devices, ultra-low loss titanium…

We present a systematic analysis of the internal losses of superconducting coplanar waveguide microwave resonators based on niobium thin films on silicon substrates. In particular, we investigate losses introduced by Nb/Al interfaces in the…

We have investigated both the temperature and the power dependence of microwave losses for various dielectrics commonly used as substrates for the growth of High critical Temperature Superconductor thin films. We present measurement of…

Superconductivity · Physics 2014-03-11 Marco Arzeo , Floriana Lombardi , Thilo Bauch

Scalable architectures characterized by quantum bits (qubits) with low error rates are essential to the development of a practical quantum computer. In the superconducting quantum computing implementation, understanding and minimizing…

In a number of recent experiments with microwave high quality superconducting coplanar waveguide (CPW) resonators an anomalously weak power dependence of the quality factor has been observed. We argue that this observation implies that the…

Mesoscale and Nanoscale Physics · Physics 2015-06-03 Lara Faoro , Lev B. Ioffe
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