Papers

Peter J. Eder, Jernej Rudi Finžgar, Sarah Braun +1 more·Jul 16, 2024

Closed quantum systems follow a unitary time evolution that can be simulated on quantum computers. By incorporating nonunitary effects via, e.g., measurements on ancilla qubits, these algorithms can be extended to open-system dynamics, such as Markov...

Nhat A. Nghiem, Hiroki Sukeno, Shuyu Zhang +1 more·Jul 16, 2024

Quantum singular value transformation (QSVT) is a framework that has been shown to unify many primitives in quantum algorithms. In this work, we leverage the QSVT framework in two directions. We first show that the QSVT framework can accelerate one r...

Li Xin, Zhang-qi Yin·Jul 16, 2024

Variational quantum algorithms have been widely demonstrated in both experimental and theoretical contexts to have extensive applications in quantum simulation, optimization, and machine learning. However, the exponential growth in the dimension of t...

P. Vinas, A. Bermudez·Jul 16, 2024

Gate set tomography (GST) allows for a self-consistent characterization of noisy quantum information processors (QIPs). The standard approach treats QIPs as black boxes only constrained by the laws of physics, attaining full generality at a considera...

Ye-Min Zhan, Guan-Dong Mao, Yu-Ge Chen +2 more·Jul 16, 2024

Topological quantum computation based on Majorana objects is subject to a significant challenge because at least some of the two-qubit quantum gates rely on the fermion (either charge or spin) parity of the qubits. This dependency renders the quantum...

B. Bertini, Katja Klobas, Pavel Kos +1 more·Jul 16, 2024

Understanding thermalization in quantum many-body systems is among the most enduring problems in modern physics. A particularly interesting question concerns the role played by quantum mechanics in this process, i.e., whether thermalization in quantu...

Riccardo Cioli, Elisa Ercolessi, Matteo Ippoliti +2 more·Jul 16, 2024

Classical shadows are a versatile tool to probe many-body quantum systems, consisting of a combination of randomised measurements and classical post-processing computations. In a recently introduced version of the protocol, the randomization step is ...

Zenghui Bao, Yan Li, Zhiling Wang +7 more·Jul 16, 2024

For superconducting quantum processors, microwave signals are delivered to each qubit from room-temperature electronics to the cryogenic environment through coaxial cables. Limited by the heat load of cabling and the massive cost of electronics, such...

M. Steinberg, Junyu Fan, Robert J. Harris +3 more·Jul 16, 2024

We introduce a new class of qubit codes that we call Evenbly codes, building on a previous proposal of hyperinvariant tensor networks. Its tensor network description consists of local, non-perfect tensors describing CSS codes interspersed with Hadama...

Nikhil Bansal, Wai-Keong Mok, Kishor Bharti +2 more·Jul 16, 2024

Pseudorandom states (PRSs) are state ensembles that cannot be efficiently distinguished from Haar-random states. However, the definition of PRSs has been limited to pure states and lacks robustness against noise. In this work, we introduce pseudorand...

M. Jattana·Jul 16, 2024

Hybrid algorithms that combine quantum and classical resources have become commonplace in quantum computing. The variational quantum eigensolver (VQE) is routinely used to solve prototype problems. Currently, hybrid algorithms use no more than one ki...

I. Chen, João C. Getelina, Kl'ee Pollock +4 more·Jul 16, 2024

Simulating strongly coupled gauge theories at finite temperature and density is a longstanding challenge in nuclear and high-energy physics that also has fundamental implications for condensed matter physics. In this work, we use minimally entangled ...

Arturo Acuaviva, David Aguirre, Rubén Peña +1 more·Jul 15, 2024

The technological development of increasingly larger quantum processors on different quantum platforms raises the problem of how to fairly compare their performance, known as quantum benchmarking of quantum processors. This is a challenge that comput...

Gergő Pintér, György Frank, Dániel Varjas +1 more·Jul 15, 2024

In quantum mechanics, the Schrieffer--Wolff (SW) transformation (also called quasi-degenerate perturbation theory) is known as an approximative method to reduce the dimension of the Hamiltonian. We present a geometric interpretation of the SW transfo...

Hirofumi Nishi, Yuki Takei, Taichi Kosugi +4 more·Jul 15, 2024

In this study, we employed a quantum computer to solve a low-energy effective Hamiltonian for spin defects in diamond (so-called NV centre) and wurtzite-type aluminium nitride, which are anticipated to be qubits. The probabilistic imaginary-time evol...

Marzio Vallero, Gioele Casagranda, Flavio Vella +1 more·Jul 15, 2024

Reliability is fundamental for developing large-scale quantum computers. Since the benefit of technological advancements to the qubit’s stability is saturating, algorithmic solutions, such as quantum error correction (QEC) codes, are needed to bridge...

S. Hazra, W. Dai, T. Connolly +4 more·Jul 15, 2024

Readout of superconducting qubits faces a trade-off between measurement speed and unwanted backaction on the qubit caused by the readout drive, such as T_{1} degradation and leakage out of the computational subspace. The readout is typically benchmar...

Hao-En Li, Xiang Li, Jiachen Huang +5 more·Jul 15, 2024

The matrix product state (MPS) Ansatz offers a promising approach for finding the ground state of molecular Hamiltonians and solving quantum chemistry problems. Building on this concept, the proposed technique of quantum circuit MPS (QCMPS) enables t...

Katerina Gratsea, Johannes Selisko, Maximilian Amsler +3 more·Jul 15, 2024

The variational quantum eigensolver (VQE) is one of the most promising and widely used algorithms for exploiting the capabilities of current Noisy Intermediate-Scale Quantum (NISQ) devices. However, VQE algorithms suffer from a plethora of issues, su...

M. Kavand, Zoe Phillips, William Koll +13 more·Jul 15, 2024

Here, we present an all-electrical readout mechanism for quasi-0D quantum states (0D-QS) such as point defects, adatoms and molecules, that is modular and general, providing an approach that is amenable to scaling and integration with other solid-sta...