Papers

Yakov Solomons, Yotam Kadish, Lee Peleg +3 more·Sep 17, 2025

Trapped-ion quantum computing can utilize all motional modes of the ion-crystal, to entangle multiple qubits simultaneously, enabling universal computation with multi-qubit gates supplemented by single-qubit rotations. Using multiple tones to drive e...

Surajit Bera, Igor V. Gornyi, Sumilan Banerjee +1 more·Sep 17, 2025

Repeated local measurements typically have adversarial effects on entangling unitary dynamics, as local measurements usually degrade entanglement. However, recent works on measurement-only dynamics have shown that strongly entangled states can be gen...

M. Javad Zakeri, Armando Perez-Leija, Andrea Blanco-Redondo·Sep 17, 2025

The robust generation and manipulation of high-dimensional quantum states lies at the heart of modern quantum computation. The use of topology to resiliently encode and transport quantum information has been widely investigated in condensed matter an...

Chi-Sheng Chen, En-Jui Kuo·Sep 17, 2025

Diffusion models typically employ static or heuristic classifier-free guidance (CFG) schedules, which often fail to adapt across timesteps and noise conditions. In this work, we introduce a quantum reinforcement learning (QRL) controller that dynamic...

Lu Wang, Andrew M. Parks, Adam Thorpe +3 more·Sep 16, 2025

High-harmonic generation (HHG) is a highly nonlinear optical process that typically requires an intense laser to trigger emissions at integer multiples of the driving field frequency. However, the strong fields required for conventional HHG inevitabl...

Arley Flórez López, Johan F. Triana, José Luis Sanz-Vicario·Sep 16, 2025

Molecular polaritons within the mid-infrared regime have emerged as a source for modifying and manipulating molecular and photonic properties. However, the development of new methodologies for photon generation is still a challenge in nanophotonics. ...

Atta ur Rahman, M. Y. Abd-Rabbou, Cong-feng Qiao·Sep 16, 2025

We address a wide spectrum of quantum control strategies, including various open-loop protocols and advanced adaptive methods. These methodologies apply to few-qubit scenarios and naturally scale to larger N-qubit systems. We benchmark them across fu...

Meng Xu, Jichang Yang, Ning Lin +6 more·Sep 16, 2025

Lattice field theory (LFT) simulations underpin advances in classical statistical mechanics and quantum field theory, providing a unified computational framework across particle, nuclear, and condensed matter physics. However, the application of thes...

Andreas Elben, Benoît Vermersch·Sep 16, 2025

We introduce RandomMeas.jl, a modular and high-performance open-source software package written in Julia for implementing and analyzing randomized measurement protocols in quantum computing. Randomized measurements provide a powerful framework for ex...

Samael Sarmiento, Jeison Tabares, Sebastian Etcheverry·Sep 16, 2025

This study presents a comprehensive simulation-based analysis of optical pilot tone generation for local oscillator synchronization in continuous-variable quantum key distribution (CV-QKD) systems using Gaussian-modulated (GM) coherent states. We com...

A. Govindarajan, M. Mazzei, H. Wang +1 more·Sep 16, 2025

Cluster states are multipartite entangled states that are maximally connected and resilient to decoherence, making them valuable resources for quantum information processing. Continuous-variable (CV) cluster states have been extensively investigated ...

Rishi Mouland, David Tong, Bernardo Zan·Sep 15, 2025

We study the dynamics and phase structure of Abelian gauge theories in $d=1+1$ dimensions. These include $U(1)$ gauge theory coupled to a scalar and a fermion, as well as the two-flavour Schwinger model with different charges. Both theories exhibit a...

Donghoon Kim, Yusuke Kimura, Hugo Mackay +6 more·Sep 15, 2025

How the detailed structure of quantum complexity emerges from quantum dynamics remains a fundamental challenge highlighted by advances in quantum simulators and information processing. The celebrated Small-Incremental-Entangling (SIE) theorem provide...

Abdullah Irfan, Kaushik Singirikonda, Mingxing Yao +5 more·Sep 15, 2025

Remote entanglement between widely separated qubits is a fundamental quantum phenomenon and a critical resource for quantum information applications. Generating entanglement between independent qubits separated by arbitrary, potentially large distanc...

Giuseppe Meneghini, Samuel Brem, Ermin Malic·Sep 15, 2025

Heterostructures of transition metal dichalcogenides (TMDs) offer unique opportunities in optoelectronics due to their strong light-matter interaction and the formation of dipolar interlayer excitons. Introducing a twist angle or lattice mismatch bet...

Zhouyang Yu, Jinping Xu, Chengjie Zhu +2 more·Sep 15, 2025

Weinvestigate the generation of antibunching photons and photon pairs in a two-atom cavity QED system leveraging interatomic van der Waals (vdW) interaction. We show that the vdW interaction shifts the two-atom excited state, enabling the suppression...

Jie Li, Youyang Hou, Laura Lin +3 more·Sep 12, 2025

Generative AI is reshaping product design practices through "vibe coding", where product team members express intent in natural language and AI translates it into functional prototypes and code. Despite rapid adoption, little research has examined ho...

Guo Xian Yau, Alexandra Burushkina, Francisco Ferreira da Silva +3 more·Sep 12, 2025

Optimized control of quantum networks is essential for enabling distributed quantum applications with strict performance requirements. In near-term architectures with constrained hardware, effective control may determine the feasibility of deploying ...

Ayan Kumar Nai, Gopal Prasad Sahu, Rutuj Gharate +2 more·Sep 12, 2025

Quantum key distribution (QKD) using entangled photon sources (EPS) is a cornerstone of secure communication. Despite rapid advances in QKD, conventional protocols still employ beam splitters (BSs) for passive random basis selection. However, BSs int...

Randy Kuang·Sep 12, 2025

We present the Random Permutation Sorting System (RPSS), a novel framework for true uniform randomness generation grounded in statistical quantum mechanics. RPSS is built on a pair of conjugate observables, the permutation count and the elapsed sorti...