Papers

Alolika Roy, Amarendra K. Sarma·Dec 23, 2025

We theoretically investigate quantum measurement noise in a hybrid optomechanical system, focusing on radiation pressure back action and its impact on force sensing. The setup consists of an optomechanical cavity with a movable mirror, a fixed semi t...

Anthony Etim, Jakub Szefer·Dec 23, 2025

Machine-learning (ML) classifiers are increasingly used in quantum computing systems to improve multi-qubit readout discrimination and to mitigate correlated readout errors. These ML classifiers are an integral component of today's quantum computer's...

N. Nehra, N. Bourlet, A. H. Esmaeili +7 more·Dec 22, 2025

Fast, high-fidelity, single-shot readout of superconducting qubits in quantum processors demands quantum-limited amplifiers to preserve the optimal signal-to-noise ratio. Typically, quantum-limited amplification is achieved with parametric down-conve...

Davi Juvêncio Gomes de Sousa, Nelson Alves Ferreira Neto, Christiano M. S. Nascimento +7 more·Dec 22, 2025

This article presents an analysis of the practical challenges and implementation perspectives of point-to-point continuous-variable quantum key distribution (CV-QKD) systems over optical fiber. The study addresses the physical layer, including the de...

Carolina Gonçalves, Tiago D. Ferreira, Catarina S. Monteiro +1 more·Dec 22, 2025

Two-photon interference in a Hong-Ou-Mandel (HOM) interferometer can be used as a quantum sensing mechanism due to the sensitivity of the interference dip to perturbations of the photon indistinguishability. In particular, recent works have generaliz...

Magdalena Parýzková, Craig S. Hamilton, Igor Jex +2 more·Dec 22, 2025

Gaussian boson sampling is an important protocol for testing the performance of photonic quantum simulators. As such, various noise sources have been investigated that degrade the operation of such devices. In this paper, we examine a situation with ...

Attila Portik, Orsolya Kálmán, Thomas Monz +1 more·Dec 22, 2025

As quantum computing advances toward the late-NISQ and early fault-tolerant eras, scalable and platform-independent benchmarks are essential for quantifying computational capacity in a classically verifiable manner. We introduce two volumetric benchm...

Pranav Vaidhyanathan, Gerard J. Milburn·Dec 22, 2025

Irreversibility implies a preferred flow of time, yet special relativity denies the existence of a preferred clock. This tension has long obstructed the formulation of a relativistic master equation: standard Markovian approximations either break Lor...

Davide Cugini, Francesco Ghisoni, Angela Rosy Morgillo +1 more·Dec 22, 2025

Estimating energy gaps, i.e. the energy difference between two different states, in quantum systems is crucial for understanding their properties. Conventionally, spectral gap estimation relies on independently computing the ground-state and first-ex...

René Pollmann, Franz Roeder, Christine Silberhorn +1 more·Dec 22, 2025

We introduce a method for determining the sensitivity of any given Entangled Two-Photon Absorption (ETPA) measurement. By modeling all signal and noise contributions to the measurement, we derive a single numerical value that describes the sensitivit...

Shuo Liu, Shao-Kai Jian, Shi-Xin Zhang·Dec 21, 2025

Noisy monitored quantum circuits have emerged as a versatile and unifying framework connecting quantum many-body physics, quantum information, and quantum computation. In this review, we provide a comprehensive overview of recent advances in understa...

Yuan Ji-Bing, Song Ya-Ju, Tang Shi-Qing +2 more·Dec 21, 2025

We investigate the quantum sensing performance of a dephasing qubit as a probe in Ohmic environments, characterized by the coupling strength $η$, the Ohmicity parameter $s$, and the cutoff frequency $ω_c$ to be estimated. The performance is quantifie...

Avner Bensoussan, Elena Chachkarova, Karine Even-Mendoza +3 more·Dec 21, 2025

Contemporary quantum computers are inherently noisy, posing significant challenges for the development and testing of quantum software. Simplified or outdated noise assumptions can lead to incorrect assessments of program correctness, obscure debuggi...

Soumyadip Das, Luke Antoncich, Jingbo B. Wang·Dec 21, 2025

Quantum Reservoir Computing (QRC) leverages the natural dynamics of quantum systems for information processing, without requiring a fault-tolerant quantum computer. In this work, we apply QRC within a hybrid quantum classical framework for image deno...

Ravishankar Ramanathan, Yuan Liu·Dec 20, 2025

The question of certifying quantum nonlocality under a relaxation of the assumptions in the Bell theorem has gained traction, with potential for device-independent applications under weak seeds and cross-talk. Recently, it was shown that quantum nonl...

Zisheng Chen, Zirui Zhu, Xiangyang Li·Dec 20, 2025

Threat detection models in cybersecurity must keep up with shifting traffic, strict feature budgets, and noisy hardware, yet even strong classical systems still miss rare or borderline attacks when the data distribution drifts. Small, near-term quant...

Mohammadreza Saghafi, Lamine Mili, Karlton Wirsing·Dec 20, 2025

We present a multifractal analysis of time series data obtained by repeatedly running a single-qubit quantum circuit on IBM superconducting quantum computers, in which the measurement outcomes are recorded as the number of zeros. By applying advanced...

Noah Garrett, Michael Rose, David A. Mazziotti·Dec 20, 2025

Hybrid quantum-classical algorithms have begun to leverage quantum devices to efficiently represent many-electron wavefunctions, enabling early demonstrations of molecular simulations on real hardware. A key prerequisite for scalable quantum chemistr...

A. R. Castelli, K. M. Beck, L. D. H. Alegria +6 more·Dec 20, 2025

Most quantum error correction (QEC) protocols for superconducting qubits assume spatially and temporally uncorrelated decoherence events; however, recent evidence suggests that cosmic radiation induces spatially correlated errors. We present a platfo...

G. Tiago, V. S. Lamego, M. H. M. Passos +2 more·Dec 19, 2025

The Depolarizing channel is one of the most important noise models and constitutes a reliable benchmark for the quantum information field. In this work, we present a simple way to emulate a Depolarizing channel by exploring a maximally non separable ...