India has successfully demonstrated a 1,000-kilometer quantum communication network using domestically developed technology. This achievement represents a significant milestone in establishing long-distance quantum-secured communication infrastructure. The demonstration showcases India's growing capabilities in quantum network deployment and indigenous quantum technology development.

印度成功演示了使用本土技术构建的1000公里量子通信网络。这一成就代表了在建立长距离量子安全通信基础设施方面的重要里程碑。该演示展示了印度在量子网络部署和本土量子技术开发方面日益增长的能力。

Summary not available.

本文展示了一种使用超导transmon qutrit实现擦除量子比特的硬件高效方案，与标准电路QED硬件兼容。该方法将主要物理错误转换为可检测的擦除，相比传统纠错方法提供更高的容错阈值和改进的扩展性。这代表了相对于需要额外量子比特数量开销和定制耦合元件的双轨方法的重大进展。

This study introduces a novel beamforming mechanism using a Rydberg atomic receiver, where a vapor cell dressed by a local-oscillator field acts as a continuous quantum aperture. Spatially-varying quantum coherence enables continuous amplitude-phase control, offering a fundamentally different approach from conventional discrete antenna arrays for communication and radar applications.

本研究介绍了一种使用里德堡原子接收器的新型波束成形机制，其中由本地振荡场修饰的蒸气室充当连续量子孔径。空间变化的量子相干性实现了连续幅度-相位控制，为通信和雷达应用提供了一种与传统离散天线阵列根本不同的方法。

This paper demonstrates a novel approach to reset superconducting transmon qubits using a physically distinct, intrinsically colder phononic bath via a multimode acoustic resonator. The method addresses the challenge of achieving low residual excited-state populations in superconducting quantum circuits, which is crucial for protocols operating near noise limits or requiring repeated qubit initialization. This represents an alternative to existing protocols that rely on sophisticated control, engineered dissipation, or feedback mechanisms.

本文展示了一种新颖的方法，通过多模声学谐振器利用物理上独立、本质上更冷的声子浴来重置超导transmon量子比特。该方法解决了在超导量子电路中实现低残留激发态布居的挑战，这对于在噪声极限附近运行或需要重复量子比特初始化的协议至关重要。这代表了现有依赖复杂控制、工程耗散或反馈机制的协议的替代方案。

This paper introduces Arqon, a suite of control applications designed to deliver reliable quantum network services by extending classical network reliability concepts to quantum entanglement distribution. It addresses the need for dependable service delivery in centrally controlled quantum networks, enabling users to execute applications on end nodes with guaranteed performance.

本文介绍了Arqon，一套通过将经典网络可靠性概念扩展到量子纠缠分发而设计的控制应用程序套件，旨在提供可靠的量子网络服务。它解决了集中控制量子网络中可靠服务交付的需求，使用户能够在终端节点上执行具有性能保证的应用程序。

This research addresses microwave losses in niobium superconducting resonators by capping them with tantalum to suppress Nb2O5 formation and replace the native NbOx interface. The surface-engineering approach improves internal quality factor (Qi) and temporal stability, enhancing qubit coherence and readout fidelity in quantum processors.

本研究通过用钽封装铌超导谐振器来抑制Nb2O5形成并替代原生NbOx界面，从而解决微波损耗问题。这种表面工程方法提高了内部品质因数（Qi）和时间稳定性，增强了量子处理器中的量子比特相干性和读取保真度。

This paper introduces QuIKS, a resource-efficient quantum key distribution (QKD) network scheme that uses adaptive buffering to achieve near-zero latency key supply. It addresses the critical need for immediate key availability in QKD networks while overcoming the prohibitive key resource consumption of existing heuristic buffering solutions. The approach enhances both security and performance for applications requiring encryption before data transmission.

本文介绍了QuIKS，一种采用自适应缓冲实现近零延迟密钥供应的高效量子密钥分发网络方案。它解决了QKD网络中密钥即时可用性的关键需求，同时克服了现有启发式缓冲方案导致的过高密钥资源消耗。该方法提升了需要先加密后传输数据的应用的安全性和性能。

This paper addresses routing challenges in satellite-assisted quantum networks where satellite motion and stochastic link generation create highly dynamic quantum topologies. The proposed SatQNet uses directed line graph neural networks to optimize entanglement routing, overcoming limitations of existing methods that rely on global topology information. This approach enables efficient long-distance entanglement distribution for interconnecting quantum devices.

本文解决了卫星辅助量子网络中的路由挑战，其中卫星运动和随机链路生成导致高度动态的量子拓扑。提出的SatQNet使用有向线图神经网络优化纠缠路由，克服了依赖全局拓扑信息的现有方法的局限性。该方法能够实现高效的远距离纠缠分发以互连量子设备。

This paper proposes a coupler-assisted superconducting two-qubit geometric gate scheme designed for crosstalk robustness, addressing the trade-off between suppressing crosstalk and reducing gate duration in scalable quantum chip architectures. The approach enhances scalability and flexibility by simplifying circuit layout and alleviating frequency crowding through tunable coupler design.

本文提出了一种面向抗串扰的可调耦合器辅助超导双量子比特几何门方案，解决了可扩展量子芯片架构中抑制串扰与缩短门持续时间之间的权衡问题。该方法通过可调耦合器设计简化电路布局并缓解频率拥挤，从而增强了可扩展性和灵活性。

Summary not available.

MQT编译器集合作为一个综合框架被提出，用于将日益复杂的量子算法转换为可执行代码，解决了主要处理纯量子程序的量子优先方法的局限性。该框架支持结构化控制流等经典元素，并集成了量子算法、纠错和优化方面的进展。随着量子计算硬件能力的持续进步，它代表了向面向未来的编译工具迈出的重要一步。

This investigation develops a fast-sealing microwave cavity that enables superconducting quantum devices with niobium base layers to be placed under vacuum within five minutes of oxide removal. This significantly reduces metal-air interface losses from two-level systems, potentially improving coherence times in high-performance superconducting quantum devices.

本研究开发了一种快速密封微波腔，使具有铌基层的超导量子器件能够在氧化物去除后五分钟内置于真空环境中。这显著减少了来自二能级系统的金属-空气界面损耗，有望提高高性能超导量子器件的相干时间。

This work explores bosonic Gottesman-Kitaev-Preskill (GKP) codes as a loss-tolerant encoding scheme for quantum repeaters, which are essential for long-distance quantum communication and quantum networks. It presents an efficient approach using single oscillator modes as physical systems within error-correcting codes, advancing practical quantum internet infrastructure.

本研究探索了玻色-戈特斯曼-基塔耶夫-普雷斯基尔（GKP）码作为量子中继器的容损编码方案，这对长距离量子通信和量子网络至关重要。它提出了一种使用单个振荡器模式作为纠错码内物理系统的高效方法，推动了实用量子互联网基础设施的发展。

This work investigates nuclear spin control in nanoscale ensembles using correlation spectroscopy techniques, focusing on spin defects like nitrogen-vacancy centers in diamond. While active nuclear spin control via RF irradiation is unnecessary for standard spin-noise detection, it becomes essential for advanced protocols like multidimensional nanoscale NMR. The research demonstrates theoretically and experimentally that resulting nuclear spin dynamics depend on correlation spectroscopy parameters.

本研究利用相关光谱技术研究纳米尺度系综中的核自旋控制，重点关注金刚石中氮空位中心等自旋缺陷。虽然标准自旋噪声检测不需要通过射频辐照进行主动核自旋控制，但对于多维纳米尺度NMR等高级协议至关重要。研究从理论和实验上证明，由此产生的核自旋动力学取决于相关光谱参数。

Summary not available.

本研究引入了扩张循环神经网络波函数，使循环神经网络量子态能够通过扩张连接捕获长程关联，解决了标准RNN架构偏向有限长度关联的局限性。该方法为通常涉及显著更高计算和内存开销的transformer式自注意力方法提供了高效替代方案。这一进展增强了神经量子态表示具有长程依赖性的复杂量子系统的能力。

This research proposes a novel characterization technique for ultrafast temporally multimode squeezed states using parametric amplification and frequency resolved optical gating. The method simultaneously recovers complex temporal mode shapes and quadrature variances without requiring constraining assumptions or complicated experimental setups, addressing a key challenge in quantum state manipulation.

本研究提出了一种利用参量放大和频率分辨光学门控技术表征超快时间多模压缩态的新方法。该技术无需约束性假设或复杂实验设置即可同时恢复复杂的时间模式形状和正交方差，解决了量子态操纵中的一个关键挑战。

This research investigates three-parameter trade-off relations for estimating Bloch vector components, exploring how entangling collective measurements can surpass fundamental quantum-mechanical incompatibility limits that preclude simultaneous precise measurement of non-commuting observables. The work addresses the largely unexplored regime of three or more parameters, which has significant fundamental and technological importance.

这项研究探讨了估计布洛赫矢量分量的三参数权衡关系，研究纠缠集体测量如何超越量子力学不相容性基本限制，这些限制阻碍了对非对易可观测量同时进行精确测量。该工作解决了三个或更多参数这一基本未探索的领域，具有重要的基础和技术意义。

Summary not available.

这项工作引入了基于能量和热量测量的热力学见证者，用于在不进行完整态层析的情况下认证量子态中的魔法性。作者定义了稳定子基态能量和稳定子间隙，表明任何能量低于稳定子基态能量的态必然是非稳定子态（具有魔法性）。这为仅使用热力学可观测量检测量子资源态提供了一种实用方法。

This paper addresses the vulnerability of quantum machine learning models to adversarial attacks by proposing quantum patches as a defense mechanism. It examines how QML models, like their classical counterparts, are susceptible to perturbed noise and explores methods to enhance their robustness against such security threats.

本文通过提出量子补丁作为防御机制，解决了量子机器学习模型对对抗性攻击的脆弱性问题。研究探讨了QML模型如何像经典模型一样易受扰动噪声影响，并探索了增强其对此类安全威胁鲁棒性的方法。

This study investigates how pump phase noise affects superconducting traveling-wave parametric amplifiers (TWPAs), crucial for qubit readout fidelity. It demonstrates that the three-wave mixing (3WM) process in Josephson TWPAs is more sensitive to pump phase noise than the four-wave mixing (4WM) process, highlighting a previously unstudied factor in amplifier performance.

本研究探讨了泵浦相位噪声对超导行波参量放大器（TWPAs）的影响，该放大器对量子比特读取保真度至关重要。研究表明，约瑟夫森TWPAs中的三波混频（3WM）过程比四波混频（4WM）过程对泵浦相位噪声更敏感，揭示了放大器性能中一个先前未研究的因素。

This research optimizes the stimulated Raman adiabatic passage (STIRAP) protocol for leakage suppression in multilevel quantum systems using Pontryagin's maximum principle. It addresses the fundamental limitation where control pulses with finite spectral selectivity couple the three-level subspace to leakage subspaces in practical systems. The multilevel chain model explicitly incorporates leakage subspaces to improve quantum state transfer fidelity beyond standard STIRAP implementations.

本研究利用庞特里亚金极大值原理优化受激拉曼绝热通道协议，以抑制多能级量子系统中的泄漏。它解决了实际系统中有限光谱选择性的控制脉冲将三能级子空间耦合到泄漏子空间的基本限制。多能级链模型明确纳入泄漏子空间，以提高超越标准STIRAP实现的量子态转移保真度。

This work extends the Weak Adversarial Neural Pushforward Method to solve the Wigner transport equation governing quantum phase-space dynamics. The key contribution is a structural observation that simplifies the nonlocal pseudo-differential potential operator to a pointwise finite difference through Fourier transform inversion, applicable in arbitrary dimensions without truncation.

本研究将弱对抗神经推进方法扩展到求解控制量子相空间动力学的维格纳输运方程。核心贡献在于通过傅里叶变换反演将非局域伪微分势算子简化为点态有限差分的结构观察，适用于任意维度且无需截断。

This work introduces a two-photon probing approach for quadratic quantum polarimetry where both photons of an entangled pair simultaneously interact with a depolarizing medium. Unlike conventional polarimetry based on linear transformations, this method enables quadratic transformations of two-photon polarization correlations, providing access to second-order polarization information beyond conventional techniques. The theoretical framework links entanglement properties to enhanced polarization characterization capabilities.

这项工作介绍了一种用于二次量子偏振测量的双光子探测方法，其中纠缠对的两个光子同时与退偏振介质相互作用。与基于线性变换的传统偏振测量不同，该方法实现了双光子偏振关联的二次变换，提供了超越传统技术的二阶偏振信息。该理论框架将纠缠特性与增强的偏振表征能力联系起来。

This paper presents a generalized circuit framework for constructing Shih-type fractionalizations of unitary operators of dyadic order. Building on quantum fractional Fourier transform architecture, fractionalization is implemented as a weighted superposition of integer powers using ancilla-domain quantum Fourier transform and diagonal phase modulation. The approach enables coherent implementation of fractional transforms for operators satisfying U^(2^n)=I.

本文提出了构建二元阶酉算子Shih型分数化的通用电路框架。基于量子分数傅里叶变换架构，分数化通过辅助域量子傅里叶变换和对角相位调制实现为整数幂的加权叠加。该方法能够对满足U^(2^n)=I的算子实现相干分数变换。

Qunnect is highlighting operational quantum networks with an emphasis on measurable performance metrics. The company focuses on practical quantum network implementations that can be evaluated using concrete performance indicators. This approach aims to advance the transition from experimental quantum networks to commercially viable quantum communication systems.

Qunnect正在强调可操作的量子网络，并聚焦于可测量的性能指标。该公司专注于可通过具体性能指标评估的实用量子网络实施。这种方法旨在推动从实验性量子网络向商业可行的量子通信系统的过渡。

This theoretical study investigates relaxation and dephasing effects in the quantum Rabi model under ultrastrong coupling conditions, providing explicit formulas for implementing nonunitary dynamics from first principles. The quantum Rabi model describes fundamental light-matter interaction between a two-level system and a quantized cavity field, with ultrastrong coupling defined as g ≳ 0.1ω.

这项理论研究探讨了超强耦合条件下量子拉比模型中的弛豫和退相干效应，提供了从第一性原理实现非幺正动力学的明确公式。量子拉比模型描述了二能级系统与量子化腔场之间的基本光-物质相互作用，超强耦合定义为g ≳ 0.1ω。

This paper applies thermodynamic analysis to optically pumped dense atomic media used in atomic magnetometers, focusing on the non-equilibrium steady state achieved through spin-exchange collisions and optical pumping. While atomic magnetometer technology has advanced rapidly, comprehensive thermodynamic understanding of state preparation remains largely unexplored. The framework provides insights into population redistribution and steady-state configuration in alkali vapor cells.

本文将热力学分析应用于原子磁力计中使用的光泵浦致密原子介质，重点关注通过自旋交换碰撞和光泵浦实现的非平衡稳态。尽管原子磁力计技术发展迅速，但对态制备的全面热力学理解仍基本未探索。该框架为碱金属蒸气池中的布居数重分布和稳态配置提供了见解。

This paper presents an analytic solution for the dynamics of a charged particle interacting with a multimode quantized electromagnetic field. The framework enables calculation of position expectation values and uncertainties for arbitrary wave packets and field states, revealing quantum corrections to classical motion. While corrections to position expectation are weak and largely insensitive to field quantum states, wave packet broadening exhibits more significant quantum effects.

本文提出了带电粒子与多模量子化电磁场相互作用的解析解。该框架能够计算任意波包和场态的位置期望值和不确定性，揭示了经典运动的量子修正。虽然位置期望值的修正较弱且对场量子态不敏感，但波包展宽表现出更显著的量子效应。

Australian quantum sensing company Deteqt has closed a $5 million AUD seed funding round. This investment will support the company's development of quantum sensing technologies for various applications. The funding round indicates growing investor interest in quantum sensing as a commercially viable quantum technology sector.

澳大利亚量子传感公司Deteqt已完成500万澳元的种子轮融资。这笔投资将支持该公司开发适用于各种应用的量子传感技术。此轮融资表明投资者对量子传感作为商业可行量子技术领域的兴趣日益增长。

This theoretical study examines the signaling structure of higher-order quantum maps from an order-theoretic perspective, building on combinatorial characterizations of higher-order types. It demonstrates that types are represented by boolean functions called type functions, each characterized by a related structure poset, and characterizes the distributive lattice generated by all type functions with fixed input/output indices. The work advances the mathematical foundations for understanding complex quantum information processing structures.

这项理论研究从序论角度考察高阶量子映射的信号传递结构，基于高阶类型的组合特征。研究表明类型由称为类型函数的布尔函数表示，每个函数由相关的结构偏序集表征，并描述了由具有固定输入/输出索引的所有类型函数生成的分配格。该工作推进了理解复杂量子信息处理结构的数学基础。

This paper investigates the emergence of semiclassical dynamics in the quantum Rabi model using a recently developed limiting procedure that establishes correspondence with the semiclassical Rabi Hamiltonian. The research examines how convergence to semiclassicality depends on the choice of quantum states, defining quantitative measures that capture differences between quantum and semiclassical dynamics. The analysis provides insights into the transition from quantum to classical behavior in light-matter interaction systems.

本文利用最近开发的极限程序研究量子拉比模型中半经典动力学的出现，该程序建立了与半经典拉比哈密顿量的对应关系。研究考察了半经典性收敛如何依赖于量子态的选择，定义了捕捉量子和半经典动力学差异的定量度量。该分析为光-物质相互作用系统中从量子行为到经典行为的转变提供了见解。

This theoretical work connects Bell statistical-strength analyses with complexity-based model selection by showing that witnesses from coarse-grained Bell trials yield lower bounds on Kullback-Leibler distance to competitor classes. In the CHSH scenario, the local image collapses to a single threshold, providing closed-form expressions for Bernoulli distributions.

这项理论工作通过证明从粗粒度贝尔试验获得的见证可产生与竞争类别的Kullback-Leibler距离下界，将贝尔统计强度分析与基于复杂度的模型选择联系起来。在CHSH场景中，局部图像坍缩为单一阈值，为伯努利分布提供了闭式表达式。

This work demonstrates that complementary Lucas sequences, including Fibonacci numbers, can be observed on a physical platform consisting of a gain-and-loss-modulated non-Hermitian reservoir bridging two mirror-symmetric systems. The sequences manifest in linearly localized edge states, showing how mathematical sequences appear in quantum physical systems.

这项工作证明互补卢卡斯序列（包括斐波那契数）可以在由增益-损耗调制的非厄米库桥接两个镜像对称系统组成的物理平台上观测到。这些序列在线性局域边缘态中显现，展示了数学序列如何在量子物理系统中出现。

This theoretical work extends an observable-generator duality for energy to the Galilean one-particle sector using continuous variables and smooth reference states. It derives time, translation, rotation, and boost directions from an isotropic equilibrium, contributing to foundational quantum mechanics and informational nonequilibrium models.

这项理论研究使用连续变量和平滑参考态，将能量的可观测量-生成元对偶性扩展到伽利略单粒子领域。它从各向同性平衡中推导出时间、平移、旋转和推进方向，为基础量子力学和信息非平衡模型做出了贡献。

This article discusses the divided opinions on AI development and progress, referencing Stanford's AI Index as a comprehensive annual assessment. It explores the contrasting perspectives in the AI industry regarding the pace and impact of technological advancement. The piece serves as a general commentary on AI trends rather than focusing on quantum technology specifically.

本文讨论了关于人工智能发展和进展的分歧意见，参考了斯坦福大学的人工智能指数作为全面的年度评估。文章探讨了人工智能行业关于技术进步速度和影响的对立观点。这篇文章是对人工智能趋势的一般性评论，而非专门关注量子技术。

This article promotes the 2026 AI Index from Stanford University as a resource for understanding the current state of artificial intelligence. It addresses the conflicting narratives surrounding AI development and suggests the AI Index provides objective data to cut through the noise. The content focuses entirely on AI assessment tools and general AI trends without quantum technology relevance.

本文推广斯坦福大学的2026年人工智能指数作为了解人工智能现状的资源。文章讨论了围绕人工智能发展的相互矛盾的叙述，并建议人工智能指数提供客观数据以消除噪音。内容完全专注于人工智能评估工具和一般人工智能趋势，与量子技术无关。

This article discusses human decision-making processes and Moderna's marketing terminology regarding vaccines, but contains no substantive quantum technology content. It appears to be a general technology newsletter covering multiple topics without quantum focus.

本文讨论了人类决策过程以及Moderna关于疫苗的营销术语，但未包含实质性量子技术内容。这似乎是一份涵盖多个主题的通用技术通讯，没有量子技术重点。

This article explores computational neuroscience research on brain-motor control and perception, specifically how the brain instructs arm movement. While neuroscience has potential quantum biology connections, this article does not address quantum technology directly.

本文探讨了关于大脑运动控制和感知的计算神经科学研究，特别是大脑如何指导手臂运动。虽然神经科学与量子生物学有潜在联系，但本文未直接涉及量子技术。

This article describes Montana's first prairie-based grizzly bear manager position and wildlife conservation efforts, with no mention of quantum technology. It focuses on environmental management and human-wildlife coexistence rather than quantum applications.

本文描述了蒙大拿州首个草原灰熊管理职位和野生动物保护工作，未提及量子技术。重点在于环境管理和人类与野生动物共存，而非量子应用。