Papers

Paulina Lewandowska, Ryszard Kukulski·May 18, 2024

This work presents the problem of learning an unknown von Neumann measurement of dimension $d$ using indefinite causal structures. In the considered scenario, we have access to $N$ copies of the measurement. We use formalism of process matrices to st...

Koustubh Phalak, Swaroop Ghosh·May 18, 2024

Quantum Machine Learning (QML) is an accelerating field of study that leverages the principles of quantum mechanics to enhance and innovate within machine learning methodologies. However, Noisy Intermediate-Scale Quantum (NISQ) computers suffer from ...

Bibek Bhandari, Irwin Huang, Ahmed Hajr +7 more·May 18, 2024

Kerr-cat qubits are bosonic qubits offering autonomous bit-flip protection, traditionally studied using driven superconducting nonlinear asymmetric inductive element (SNAIL) oscillators. Here, we theoretically explore an alternative circuit for Kerr-...

Suman Rath, Neel Kanth Kundu, Subham Sahoo·May 18, 2024

Quantum key distribution (QKD) has often been hailed as a reliable technology for secure communication in cyber–physical microgrids. Even though unauthorised key measurements are not possible in QKD, attempts to read them can disturb quantum states l...

Boldizsár Poór, R. A. Shaikh, Quanlong Wang·May 17, 2024

The ZX-calculus is a graphical language for reasoning about quantum computing and quantum information theory. As a complete graphical language, it incorporates a set of axioms rich enough to derive any equation of the underlying formalism. While comp...

Filippos Dakis, E. Takou, Edwin Barnes +1 more·May 17, 2024

Quantum memories play a key role in facilitating tasks within quantum networks and quantum information processing, including secure communications, advanced quantum sensing, and distributed quantum computing. Progress in characterizing large nuclear ...

Stepan Fomichev, Kasra Hejazi, Ignacio Loaiza +5 more·May 17, 2024

X-ray absorption spectroscopy is a crucial experimental technique for elucidating the mechanisms of structural degradation in battery materials. However, extracting information from the measured spectrum is challenging without high-quality simulation...

Shao-Hua Hu, G. Biswas, Jun-Yi Wu·May 17, 2024

We employ quantum-volume random-circuit sampling to benchmark the two-QPU entanglement-assisted distributed quantum computing (DQC) and compare it with single-QPU quantum computing. We first specify a single-qubit depolarizing noise model in the rand...

Srinivasan Arunachalam, Arkopal Dutt, Francisco Escudero Guti'errez +1 more·May 17, 2024

We consider the problem of learning low-degree quantum objects up to $\varepsilon$-error in $\ell_2$-distance. We show the following results: $(i)$ unknown $n$-qubit degree-$d$ (in the Pauli basis) quantum channels and unitaries can be learned using ...

Tianyi Hao, Zichang He, R. Shaydulin +2 more·May 17, 2024

Variational quantum algorithms (VQAs) are a broad class of algorithms with many applications in science and industry. Applying a VQA to a problem involves optimizing a parameterized quantum circuit by maximizing or minimizing a cost function. A parti...

Chong Hian Chee, Daniel Leykam, A. Mak +2 more·May 17, 2024

Digital quantum computers promise exponential speedups in performing quantum time-evolution, providing an opportunity to simulate quantum dynamics of complex systems in physics and chemistry. However, the task of extracting desired quantum properties...

Neil Dowling, Maxwell T. West, Angus Southwell +4 more·May 16, 2024

Despite their ever more widespread deployment throughout society, machine learning algorithms remain critically vulnerable to being spoofed by subtle adversarial tampering with their input data. The prospect of near-term quantum computers being capab...

Christian Internò, Elena Raponi, Markus Olhofer +5 more·May 16, 2024

The practical deployment of Federated Learning (FL) on resource-constrained devices is fundamentally limited by the high cost of training large models and the instability caused by heterogeneous (non-IID) client data. Conventional pruning methods oft...

Zhe Wang, Clare C. Yu, Ruqian Wu·May 16, 2024

Superconducting qubits are a key contender for quantum computing elements, but they often face challenges like noise and decoherence from two-level systems (TLS). Tantalum (Ta) qubits are notable for their long T$_1$ coherence times nearing milliseco...

M. Pita-Vidal, J. Wesdorp, Christian Kraglund Andersen·May 16, 2024

Andreev (or superconducting) spin qubits (ASQs) have recently emerged as a promising qubit platform that combines superconducting circuits with semiconductor spin degrees of freedom. While recent experiments have successfully coupled two ASQs, how to...

Poramet Pathumsoot, Theerapat Tansuwannont, Naphan Benchasattabuse +5 more·May 16, 2024

Quantum networks are expected to enhance distributed quantum computing and quantum communication over long distances while providing security dependent upon physical effects rather than mathematical assumptions. Through simulation, we show that a qua...

Woo-Ram Lee, Nathan M. Myers, V. Scarola·May 16, 2024

We present a hybrid quantum algorithm for estimating gaps in many-body energy spectra, supported by an analytic proof of its inherent resilience to state preparation and measurement errors, as well as mid-circuit multi-qubit depolarizing noise. Our a...

Mason L. Rhodes, Michael Kreshchuk, Shivesh Pathak·May 16, 2024

We report a first-of-its-kind analysis on post-Trotter simulation of U(1), SU(2), and SU(3) lattice gauge theories including fermions in arbitrary spatial dimension. We provide explicit circuit constructions as well as T-gate counts and logical qubit...

Navneet Singh, Shiva Raj Pokhrel·May 16, 2024

In this paper, we explore the power of Quantum Machine Learning as we extend, implement and evaluate algorithms like Quantum Support Vector Classifier (QSVC), Pegasos-QSVC, Variational Quantum Circuits (VQC), and Quantum Neural Networks (QNN) in Qisk...

Ahmed M. Farouk, I. Beterov, Peng Xu +1 more·May 16, 2024

Recent progress in quantum computing and quantum simulation of many-body systems with arrays of neutral atoms using Rydberg excitation has provided unforeseen opportunities towards computational advantage in solving various optimization problems. The...