This work presents a heterogeneous quantum computing architecture that unifies bottom-up physical device considerations with top-down quantum error correction (QEC) code requirements. By incorporating task-specific hardware selection and QEC encoding, the architecture achieves a 138x reduction in physical qubit requirements for fault-tolerant quantum computing. This bridges the gap between device-level challenges and code-level optimization.

本研究提出了一种异构量子计算架构，统一了自底向上的物理设备考虑与自顶向下的量子纠错（QEC）代码需求。通过整合任务特定的硬件选择和QEC编码，该架构在容错量子计算中实现了物理量子比特需求减少138倍。这弥合了设备级挑战与代码级优化之间的差距。

This roadmap article reviews rapid progress in high-dimensional quantum photonics, which uses multimode photonic degrees-of-freedom (spatial, temporal, spectral) to encode multi-level quantum states. It covers methods for generating, manipulating, and distributing such quantum states of light, highlighting practical advantages over conventional qubit-based approaches in various quantum technology applications.

这篇路线图文章回顾了高维量子光子学的快速进展，该领域使用多模光子自由度（空间、时间、频谱）来编码多级量子态。它涵盖了生成、操纵和分发此类光量子态的方法，强调了在各种量子技术应用中相对于传统基于量子比特方法的实际优势。

Researchers demonstrate a Gaussian-only scheme that suppresses loss-induced decoherence for general optical quantum states by injecting squeezed vacuum into the loss channel environment and implementing feedforward operations. This approach addresses the bottleneck of optical loss in photonic quantum information processing without requiring experimentally demanding non-Gaussian operations like quantum distillation or error correction.

研究人员展示了一种仅使用高斯操作的方案，通过将压缩真空注入损耗通道环境并实施前馈操作，抑制了一般光学量子态的损耗诱导退相干。这种方法解决了光子量子信息处理中光学损耗的瓶颈问题，无需量子蒸馏或纠错等实验要求高的非高斯操作。

This research introduces two semi-device-independent randomness expansion protocols in a prepare-and-measure setting where source and measurement devices are uncharacterized. One protocol achieves expansion by recycling input randomness, while the other uses biased input distributions, both assuming trust only in a testing device that could be implemented with a photodiode, addressing security challenges in quantum random number generation.

这项研究在准备-测量设置中引入了两种半设备无关的随机数扩展协议，其中源和测量设备未表征。一种协议通过回收输入随机性实现扩展，另一种使用有偏输入分布，两者都假设仅信任可用光电二极管实现的测试设备，解决了量子随机数生成中的安全挑战。

This experimental work presents a chip-integrated diamond photonic crystal cavity embedding color centers for cryogenic quantum photonics, addressing the challenge of maintaining optical coherence at low temperatures. The scalable on-chip integration of diamond emitters with long spin coherence times and high photon emission rates represents significant progress toward practical quantum photonic information processing systems that require coherent photon sources.

这项实验工作提出了一种用于低温量子光子学的芯片集成金刚石光子晶体腔，其中嵌入了色心，解决了在低温下保持光学相干性的挑战。具有长自旋相干时间和高光子发射率的金刚石发射器的可扩展片上集成，代表了朝着需要相干光子源的实用量子光子信息处理系统的重大进展。

This work presents an enhanced entangled quantum clock protocol that incorporates quantum phase estimation algorithms to directly estimate proper-time differences as unknown phases. By employing highly entangled multi-clock states, the approach achieves uncertainty scaling inversely with the total number of quantum clocks, surpassing standard projection-noise limits for high-precision relativistic time comparison.

本研究提出了一种增强的纠缠量子时钟协议，结合量子相位估计算法，将原时差作为未知相位直接估计。通过使用高度纠缠的多时钟态，该方法实现了不确定度与量子时钟总数成反比的缩放，超越了标准投影噪声极限，用于高精度相对论时间比较。

Researchers propose a hetero-homodyne receiver architecture for quantum target ranging that achieves quantum advantage using entangled photon pairs without requiring impractical collective measurements. This practical implementation overcomes previous limitations by eliminating the need for numerous quantum memories and linear passive components while maintaining error-probability advantages over classical ranging strategies.

研究人员提出了一种用于量子目标测距的异质-零差接收器架构，利用纠缠光子对实现量子优势，无需不切实际的集体测量。这种实际实施方案通过消除对大量量子存储器和线性无源组件的需求，克服了先前限制，同时保持了相对于经典测距策略的错误概率优势。

This paper explores using quantum computers to test the incompatibility of general relativity and quantum mechanics at the Planck scale. It quantifies how logical qubit count relates to challenging classical limits, arguing that 500 logical qubits are sufficient to reject theories confined to a laboratory. The analysis accounts for the operational costs of computation and communication in such experiments.

本文探讨了使用量子计算机在普朗克尺度上测试广义相对论与量子力学的不相容性。它量化了逻辑量子比特数量与挑战经典极限的关系，认为500个逻辑量子比特足以否定局限于实验室的理论。该分析考虑了此类实验中计算和通信的操作成本。

This research demonstrates directional emission control for a pair of qubits using waveguide quantum electrodynamics, enabling selective driving and collective effects like super- and subradiance. The work implements chiral quantum optics principles through radiative coupling between spatially separated quantum emitters, offering complementary approaches to quantum light manipulation.

这项研究利用波导量子电动力学展示了对一对量子比特的定向发射控制，实现了选择性驱动和超辐射/亚辐射等集体效应。该工作通过空间分离量子发射器之间的辐射耦合实现了手性量子光学原理，为量子光操纵提供了互补方法。

This work proposes a novel continuous-variable quantum error correction scheme that utilizes discrete-variable ancilla instead of demanding Gottesman-Kitaev-Preskill states. The scheme extracts information about CV displacement to the DV ancilla, enabling measurement and correction of unwanted displacements in bosonic systems for robust CV quantum information processing.

这项工作提出了一种新颖的连续变量量子纠错方案，使用离散变量辅助比特替代要求苛刻的Gottesman-Kitaev-Preskill态。该方案将CV位移信息提取到DV辅助比特中，实现对玻色子系统中不需要位移的测量和校正，从而实现稳健的CV量子信息处理。

Researchers propose a hardware-efficient quantum residual neural network that implements residual connections through deterministic linear combinations of identity and variational unitaries, enabling fully differentiable training without post-selection. The architecture mitigates barren plateaus in variational quantum learning models while preserving residual learning capabilities, demonstrating improved trainability for quantum machine learning applications.

研究人员提出了一种高效硬件的量子残差神经网络，通过恒等和变分幺正算符的确定性线性组合实现残差连接，实现无需后选择的完全可微分训练。该架构缓解了变分量子学习模型中的贫瘠高原问题，同时保留了残差学习能力，展示了量子机器学习应用改进的可训练性。

QNAS is a neural architecture search framework specifically designed for quantum neural networks that unifies hardware-aware evaluation, multi-objective optimization, and explicit modeling of circuit cutting overhead. This approach addresses the critical challenge of designing QNNs that balance accuracy, trainability, and resource constraints on NISQ hardware, going beyond existing methods that primarily optimize accuracy while ignoring practical deployment considerations.

QNAS是一个专门为量子神经网络设计的神经架构搜索框架，它统一了硬件感知评估、多目标优化和电路切割开销的显式建模。该方法解决了在NISQ硬件上设计平衡准确性、可训练性和资源约束的QNN的关键挑战，超越了主要优化准确性而忽略实际部署考虑的现有方法。

This research demonstrates that Grover four-port linear optical devices can implement deterministic controlled-NOT gates without post-selection or ancilla measurements by using symmetry-based qubits. The approach enables programmable optical devices that can implement arbitrary quantum circuits with reduced resource requirements.

本研究证明，通过使用基于对称性的量子比特，Grover四端口线性光学器件可实现无需后选择或辅助测量的确定性受控非门。该方法使得可编程光学器件能够以更少的资源需求实现任意量子电路。

This research optimizes entanglement harvesting protocols where two local probes couple to a quantum field vacuum with arbitrary temporal profiles. Using Hermite expansions to compute smeared field propagators, the negativity between probes is expressed as a matrix product. The optimization enhances entanglement harvesting by several orders of magnitude, pushing experimental proposals beyond second-order perturbation theory limits.

本研究优化了纠缠收获协议，其中两个局部探测器以任意时间轮廓耦合到量子场真空。使用Hermite展开计算涂抹场传播子，探测器间的负性被表达为矩阵乘积。该优化将纠缠收获提高了数个数量级，推动实验提案超越二阶微扰理论的极限。

This work demonstrates that quantum states with intrinsically complex amplitudes provide fundamental advantages in state discrimination tasks, constructing a set of five orthogonal three-qubit pure states that become strongly nonlocal only when including imaginary components. The research shows these states become locally indistinguishable not only under local measurements but also against bipartite joint operations, highlighting the resource nature of complex numbers in quantum mechanics.

这项工作证明具有内在复数振幅的量子态在态区分任务中提供了基本优势，构建了一组五个正交的三量子比特纯态，这些态仅在包含虚数分量时才变得强非局域。研究表明这些态不仅在局部测量下变得局部不可区分，而且在双方联合操作下也是如此，突出了复数在量子力学中的资源性质。

This work unifies two widely used approaches for strongly damped, non-Markovian open quantum dynamics by proving that every physical bath correlation function with N exponential terms corresponds to a model with N interacting pseudomodes damped in Lindblad form. It establishes a non-unitary linear transformation that mirrors the system-pseudomode state evolution.

这项工作通过证明每个具有N个指数项的物理浴关联函数都对应于一个具有N个相互作用赝模的模型（以Lindblad形式阻尼），统一了两种广泛使用的强阻尼非马尔可夫开放量子动力学方法。它建立了一个非幺正线性变换来反映系统-赝模状态演化。

Researchers develop a first-principles model for Quantum MIMO channels in free-space optical links, explicitly accounting for atmospheric turbulence, intermodal crosstalk, finite detection apertures, and spatial-mode projection effects. The framework distinguishes between distinguishable and indistinguishable photon regimes, providing foundational tools for designing quantum communication systems that leverage spatial multiplexing in realistic atmospheric conditions.

研究人员为自由空间光链路中的量子MIMO信道开发了一个第一性原理模型，明确考虑了大气湍流、模间串扰、有限检测孔径和空间模投影效应。该框架区分了可区分和不可区分光子体系，为在实际大气条件下利用空间复用的量子通信系统设计提供了基础工具。

This paper introduces Hybriqu Encoder, a Rust-based SIMD kernel optimized for angle encoding in hybrid quantum-classical algorithms. It processes four double-precision rotations simultaneously using AVX vector lanes and integrates with Python via CFFI. The approach significantly accelerates classical-to-quantum data conversion through cache-aware data organization and pre-calculated trigonometric functions.

本文介绍了Hybriqu Encoder，一种基于Rust的SIMD内核，专为混合量子经典算法中的角度编码优化。它使用AVX向量通道同时处理四个双精度旋转，并通过CFFI与Python集成。该方法通过缓存感知的数据组织和预计算三角函数，显著加速了经典到量子数据的转换。

This paper introduces a systematic protocol for constructing quantum Hilbert-space-fragmented Hamiltonians, whose Krylov-sector structure requires an entangled basis for full resolution. The protocol uses a Rokhsar-Kivelson type construction to promote classically fragmented models to quantum fragmented models, and also works with non-fragmented inputs like Ising models.

本文提出了一种构建量子希尔伯特空间碎片化哈密顿量的系统协议，其Krylov扇区结构需要在纠缠基中才能完全解析。该协议使用Rokhsar-Kivelson类型构造将经典碎片化模型提升为量子碎片化模型，并且也适用于非碎片化输入如伊辛模型。

This paper investigates coherent feedback H∞ control for linear quantum systems, presenting a simplified design methodology that ensures closed-loop stability and prescribed disturbance attenuation. The approach demonstrates that physically realizable quantum controllers can be obtained by solving at most four Lyapunov equations, with necessary and sufficient conditions provided for passive systems.

本文研究线性量子系统的相干反馈H∞控制，提出了一种简化的设计方法，确保闭环稳定性和规定的干扰衰减。该方法表明，通过求解最多四个李雅普诺夫方程可获得物理可实现的量子控制器，并为被动系统提供了充要条件。

This theoretical study analyzes coherence and entanglement dynamics within Shor's quantum factoring algorithm, examining how unitary operations induce variations in these quantum resources throughout the computational steps. The research establishes relationships between geometric coherence and geometric entanglement, demonstrating their dependence on register dimensions and order parameters.

这项理论研究分析了Shor量子因式分解算法中的相干性和纠缠动力学，考察了幺正操作如何在计算步骤中引起这些量子资源的变化。研究建立了几何相干性与几何纠缠之间的关系，证明了它们对寄存器维度和阶参数的依赖性。

This theoretical work demonstrates that classical-quantum dynamics, which have been proposed as alternative descriptions of gravity with classical mediators, emerge generically as effective descriptions of fully quantum systems under decoherence. The research connects to ongoing efforts to test quantum gravity via tabletop experiments like gravity-mediated entanglement schemes, providing a bridge between fundamental quantum theory and phenomenological models.

这项理论研究证明，经典-量子动力学（被提出作为具有经典介质的引力替代描述）在退相干下普遍地作为完全量子系统的有效描述而涌现。该研究与通过桌面实验（如引力介导的纠缠方案）测试量子引力的持续努力相关，为基础量子理论和现象学模型之间建立了桥梁。

This study formalizes quantum purification machines that lift arbitrary quantum states and channels to purifications and Stinespring dilations. It examines both probabilistic exact and deterministic approximate settings, showing that universality is not necessary to rule out such transformations. The framework analyzes transformations given finite copies or uses of black-box inputs to output corresponding purifications.

本研究形式化了量子纯化机，将任意量子态和信道提升为纯化和Stinespring扩张。它检查了概率精确和确定性近似设置，表明通用性并非排除此类变换的必要条件。该框架分析了给定有限副本或黑盒输入使用次数以输出相应纯化的变换。

This paper proposes soft-quantum algorithms that directly train matrix elements of quantum operations, similar to weight matrices in classical neural networks, to address the high training costs and low fidelity of current quantum devices. The approach is particularly suitable for few-qubit problems with large datasets where classical simulation is currently dominant.

本文提出软量子算法，直接训练量子操作的矩阵元素（类似于经典神经网络中的权重矩阵），以解决当前量子设备的高训练成本和低保真度问题。该方法特别适用于具有大数据集的少量子比特问题，目前这些问题主要由经典模拟主导。

This paper introduces two new magic state quantifiers based on quantum (α,β) Jensen-Shannon divergence, derived from quantum (α,β) entropy and relative entropy. These quantifiers possess desirable mathematical properties and are efficiently computable in low-dimensional Hilbert spaces, contributing to fault-tolerant quantum computation resource analysis.

本文基于量子(α,β)熵和相对熵，引入了两种新的魔法态量度器，基于量子(α,β) Jensen-Shannon散度。这些量度器具有理想的数学性质，在低维希尔伯特空间中可高效计算，有助于容错量子计算的资源分析。

This article explores quantum networks as potential alternatives to classical internet infrastructure. It discusses what to expect from quantum network development and their implications for future communication systems.

本文探讨了量子网络作为经典互联网基础设施的潜在替代方案。文章讨论了量子网络发展的未来展望及其对通信系统的影响。

This work addresses the large gate count and circuit depth in Grover oracle quantum state preparation circuits by proposing database reordering techniques. The approach reduces quantum circuit complexity for embedding database information into quantum states, potentially improving the efficiency of Grover's algorithm implementations.

本研究通过提出数据库重排序技术，解决Grover预言机量子态制备电路中的高门数和电路深度问题。该方法降低了将数据库信息嵌入量子态的量子电路复杂度，可能提高Grover算法实现的效率。

The paper introduces a new quantum relative-alpha-entropy that extends Umegaki's relative entropy while falling outside the traditional f-divergence class, revealing quantum geometric effects often obscured by classical constructions. This divergence exhibits nonlinear convexity properties and provides generalized convexity results for Petz-Renyi divergences, offering new mathematical tools for quantum information theory with potential applications in quantum resource theories and thermodynamics.

本文引入了一种新的量子相对α熵，它扩展了Umegaki相对熵，同时不属于传统的f散度类，揭示了通常被经典构造所掩盖的量子几何效应。该散度表现出非线性凸性性质，并为Petz-Renyi散度提供了广义凸性结果，为量子信息理论提供了新的数学工具，在量子资源理论和热力学中具有潜在应用。

This article analyzes the quantum communication market, examining strategic insights, growth drivers, key opportunities, and major players. It provides an outlook on market trends and commercial developments in quantum communication technologies.

本文分析了量子通信市场，探讨了战略洞察、增长驱动因素、关键机遇和主要参与者。文章提供了量子通信技术市场趋势和商业发展的展望。

This theoretical work develops a dissipative extension of classical mechanics based on a complex and quaternionic action principle that endows classical systems with intrinsic environments. The approach yields two coupled Hamilton-Jacobi equations describing dynamically intertwined system-environment pairs, motivating a Dual Sector Interpretation where additional degrees of freedom behave as an image sector exchanging energy and information.

这项理论工作基于复数和四元数作用原理发展了经典力学的耗散扩展，赋予经典系统内在环境。该方法产生了两个耦合的哈密顿-雅可比方程，描述了动态交织的系统-环境对，提出了双重扇区解释，其中额外的自由度表现为交换能量和信息的镜像扇区。

This theoretical work develops algebraic techniques based on the so(4,2) Lie algebra to efficiently evaluate Lamb shifts and radiative decay rates for hydrogenic energy eigenstates by systematically exploiting the intrinsic symmetry of the hydrogenic Hamiltonian. The approach provides unified integral representations for complex-valued energy shifts in lowest-order perturbation theory with respect to the fine-structure constant.

这项理论研究开发了基于so(4,2)李代数的代数技术，通过系统利用氢原子哈密顿量的内在对称性，有效评估氢原子能量本征态的兰姆位移和辐射衰变率。该方法为相对于精细结构常数的最低阶微扰理论中的复数值能量位移提供了统一的积分表示。

This theoretical work proposes a model called 'Agent Choice via Quantum Flux' that attempts to place intentional choices by biological organisms on a physical footing using quantum principles. The model explores a many-to-one relation between quantum states and agent choices, drawing parallels to the relation between thermodynamic microstates and macrostates, while maintaining consistency with physical laws.

这项理论工作提出了一个名为'量子通量代理选择'的模型，试图利用量子原理将生物体的有意选择建立在物理基础上。该模型探索了量子态与代理选择之间的多对一关系，与热力学微观态和宏观态之间的关系相类似，同时保持与物理定律的一致性。

This newsletter edition covers multiple technology topics including exponential AI growth and environmental debates about synthetic turf. The quantum technology content appears minimal or absent based on the provided excerpt.

本期通讯涵盖多个技术主题，包括指数级人工智能增长和关于人造草坪的环境辩论。根据提供的摘要，量子技术内容似乎很少或没有。

This article discusses environmental concerns about synthetic turf (AstroTurf), examining its ecological impact and ongoing debates. No quantum technology content is evident from the provided text.

本文讨论了关于人造草坪的环境问题，探讨了其生态影响和持续辩论。从提供的文本中未发现量子技术内容。

This article analyzes desalination technology through statistical data, examining its growing importance in water-stressed regions. The content focuses on water technology rather than quantum applications.

本文通过统计数据分析了海水淡化技术，探讨了其在缺水地区日益增长的重要性。内容侧重于水技术而非量子应用。