Papers

Timothée Dao, Ege Yilmaz, Ibrahim Shehzad +8 more·Mar 13, 2026

Reservoir computing leverages rich, non-linear dynamics to process temporal data. Quantum variants promise enhanced expressivity from high-dimensional Hilbert spaces, yet their practical applicability is hindered by hardware noise and concentration e...

Alberto López-García, Marcel Morillas-Rozas, Alberto Mayorgas +1 more·Mar 13, 2026

The ground state of the negatively charged NV center forms a spin-1 manifold providing a versatile platform for sensing and information processing. Here we present a scheme for implementing fast arbitrary qutrit gates in the low-field regime using mo...

D. Sokolovski, D. Alonso, S. Brouard·Mar 13, 2026

We consider highly inaccurate measurements made on classical stochastic and quantum systems. In the quantum case such a \e{weak} measurement preserves coherence between the system's alternatives. We demonstrate that in both cases the information abou...

Michele N. Notarnicola, Radim Filip·Mar 13, 2026

Nonlocal quantum gates, coupling quantum systems located at distance, are crucial for distributed quantum computing. High-capacity optical noiseless connections between these quantum systems are essential for transmitting large amounts of information...

Chang He, Yongjun Wang, Baoshan Wang +2 more·Mar 13, 2026

Quantum contextuality is a fundamental nonclassical property of quantum systems, regarded as a key resource that demonstrates the computational and informational advantages of quantum over classical systems. Our present work aims to construct Hardy's...

Ryosuke Kimura, Kosuke Mitarai·Mar 13, 2026

Quantum phase estimation (QPE) is a cornerstone of quantum algorithms designed to estimate the eigenvalues of a unitary operator. QPE is typically implemented through two paradigms with distinct circuit structures: quantum Fourier transform-based QPE...

Kazuma Nagao, Tomonori Shirakawa, Rongyang Sun +2 more·Mar 13, 2026

Many-body localization (MBL) provides a mechanism by which interacting quantum systems evade thermalization, leading to persistent memory of initial conditions and slow entanglement growth. Probing these dynamical signatures in large systems and at l...

Eliot Heinrich, Hanchen Liu, Tianci Zhou +1 more·Mar 13, 2026

We study the participation and stabilizer entropy of non-unitary quantum circuit dynamics, focusing on the critical line that separates the low-entanglement spin-glass phase and the paramagnetic phase. Along this critical line, the entanglement has a...

Luke S. Trainor, Masaya Hiraishi, J. -R. Soh +1 more·Mar 13, 2026

The narrowness of the optical transitions of rare-earth-ion dopants makes them highly sensitive probes of their environment. We measured the optical transitions Er$^{3+}$ dopants to determine the previously unknown magnetic ordering of Gd$_{2}$SiO$_{...

Pedro B. Melo·Mar 13, 2026

We derive general upper bounds to pointwise mutual information in terms of stochastic Fisher information and show these bounds average to known results in the literature for bounds to mutual information in terms of Fisher information. These results d...

Ziying Hou, Huaqi Zhou, Limin Gao·Mar 13, 2026

Entanglement-assisted discrimination of orthogonal quantum states exhibiting quantum nonlocality is a frontier topic in quantum information theory. In this paper, we investigate the role of multipartite entanglement and develop resource-efficient LOC...

F. Sobrero, M. S. Soares, N. F. Svaiter·Mar 12, 2026

We study radiative processes of two qubits coupled to a massless scalar field prepared in the Minkowski vacuum state. The analyze the effects of vacuum fluctuations in the generation of qubits' entangled states is performed. We assume one of the qubi...

Piotr Sierant, Xhek Turkeshi, Poetri Sonya Tarabunga·Mar 12, 2026

In quantum information theory and statistical physics, symmetries of multiple copies, or replicas, of a system play a pivotal role. For unitary ensembles, these symmetries are encoded in the replicated commutant: the algebra of operators commuting wi...

B. T. Miller, Lindsay Orr, A. Metelmann +1 more·Mar 12, 2026

High fidelity qubit readout is a cornerstone for quantum information protocols. In traditional superconducting qubit readout, a chain of microwave amplifiers and nonreciprocal components aid in detecting the qubit's state with tolerable added noise a...

Chengkai Zhu, Shuyu He, Gereon Koßmann +1 more·Mar 12, 2026

Quantum channel discrimination is a fundamental task in quantum information processing. In the one-shot regime, discrimination between two candidate channels is characterized by the diamond norm. Beyond this basic setting, however, many scenarios in ...

Bartosz Chmura·Mar 12, 2026

The Bernstein-Vazirani (BV) algorithm is frequently taught as a canonical example of quantum parallelism, yet the standard interference-based explanation often obscures its underlying simplicity. We present a geometric reframing in which the Hadamard...

Nicolas Gosling, Denis Bénâtre, Nicolas Zapata +8 more·Mar 12, 2026

Achieving fault tolerance with superconducting quantum processors requires qubits to operate within the regime of threshold theorems based on the Born-Markov approximation. This approximation, which models dissipation as constant energy decay into a ...

Silu Zhao, Li Li, Weiping Yuan +13 more·Mar 12, 2026

We demonstrate high-fidelity single-qubit gates on a C-shunt flux qubit that simultaneously combines a large anharmonicity ($\mathcal{A}/2π=848~\mathrm{MHz}$) with long relaxation time ($T_1 = 23~μ\text{s}$). The large anharmonicity significantly sup...

Cheng Zhang, Mauro Cirio, Xin-Qi Li +1 more·Mar 12, 2026

We analyze a global sensing scenario in which the frequency of a monitored Kerr parametric oscillator is estimated assuming limited prior information. The frequency is estimated in real-time by continuously monitoring the oscillator quadrature throug...

Ya-Long Ren, Rong-Teng Cao, Sheng-Li Ma +4 more·Mar 12, 2026

Linear quantum amplifiers are indispensable tools for quantum technologies, yet their performance is fundamentally limited by quantum noise, precluding any signal-to-noise ratio (SNR) enhancement unless supplemented by post-selection or non-classical...