arXiv:2604.21210v1 Announce Type: new Abstract: In continuously monitored quantum systems, the feedback protocol of Garc\'ia-Pintos, Liu, and Gorshkov reshapes the arrow of time: a Hamiltonian $H_{\mathrm{meas}} = r A / \tau$ applied with gain $X$ tilts the distribution of measurement trajectories,
Read full article →arXiv:2604.21230v1 Announce Type: new Abstract: Fast qubit reset is essential for qubit reuse in the noisy intermediate-scale quantum computing era, yet it conflicts with the weak decoherence required for high-fidelity computation. We solve the time-optimal reset problem for a frequency-tunable qub
Read full article →arXiv:2604.21266v1 Announce Type: new Abstract: There has been intensive research on increasing the utility and performance of Parameterized Quantum Circuits (PQCs) in the past couple of years. Owing to this research, there are now several inductive biases available to a quantum algorithms research
Read full article →arXiv:2604.21272v1 Announce Type: new Abstract: Quantum state tomography (QST) scales exponentially in both measurement and computational cost, making full reconstruction impractical for multi-qubit systems. Existing approaches attempt to reduce this complexity, but do not explicitly restrict the o
Read full article →arXiv:2604.21274v1 Announce Type: new Abstract: A random access code (RAC) encodes an $L$-bit string into a $k$-bit $(L>k)$ message from which any designated source bit can be recovered with high probability. Its quantum counterpart, a quantum random access code (QRAC), replaces the $k$-bit message
Read full article →arXiv:2604.21287v1 Announce Type: new Abstract: As quantum hardware scales toward fault tolerant operation, the demand for correct quantum error correction (QEC) circuits far outpaces manual design capacity. AI agents offer a promising path to automating this synthesis, yet no benchmark exists to m
Read full article →arXiv:2604.21288v1 Announce Type: new Abstract: We revisit the quantization of the order parameter, which we refer to as third quantization, from the perspective of the commutation relation between the phase operator of the order parameter and the particle-number operator. We show that this macrosc
Read full article →arXiv:2604.21320v1 Announce Type: new Abstract: The quantum Mpemba effect (ME) in Markovian systems is conventionally explained by a smaller overlap between the initial state and the slowest decay mode (SDM). Such state, initially farther away from equilibrium or steady state, relaxes faster than c
Read full article →arXiv:2604.21323v1 Announce Type: new Abstract: In quantum estimation for a $d$-parameter family of density operators on a finite-dimensional Hilbert space $\mathcal{H}$, an estimator is specified by a pair $\left(M,\hat{\theta}\right)$, where $M$ is a POVM with a finite outcome set $\Omega$ and $\
Read full article →arXiv:2604.21333v1 Announce Type: new Abstract: We present pygridsynth, an open-source Python library for ancilla-free approximate Clifford+$T$ synthesis that runs in $O(\log(1/\epsilon))$ for precision $\epsilon$. For $n=1, 2$ qubits, the library builds upon established efficient and high-precisio
Read full article →arXiv:2604.21342v1 Announce Type: new Abstract: Magnetic quantum sensors based on trapped ions utilize properties of quantum mechanics which have optimized precision and beat current limits in sensor technology. Trapped ions are highly sensitive in a large span of signal ranging from DC or static B
Read full article →arXiv:2604.21348v1 Announce Type: new Abstract: We prove an exact quantum conservation law for a harmonic oscillator coupled to a ghost degree of freedom: a second classical conserved quantity lifts to a quantum operator that commutes with the Hamiltonian with no hbar corrections, yielding a rigoro
Read full article →arXiv:2604.21350v1 Announce Type: new Abstract: We investigate optimized vertical ion-shuttling protocols for trapped-ion applications across a range of ion-trap experiments, including three-dimensional gradient-measurement sensors, on-chip ion fluorescence collection and imaging, improved laser ac
Read full article →arXiv:2604.21388v1 Announce Type: new Abstract: High-precision optical phase stabilization in quantum networks is fundamentally constrained by the strict photon-flux and duty-cycle limits required to avoid disturbing fragile quantum states. This challenge becomes especially critical when coordinati
Read full article →arXiv:2604.21458v1 Announce Type: new Abstract: Closed-loop superconducting-qubit calibration has matured into DAG-orchestrated protocol chains, yet published frameworks treat the bath via a Markovian master equation or a phenomenological likelihood, absorbing bath structure into fit residuals inst
Read full article →arXiv:2604.21463v1 Announce Type: new Abstract: We investigate the reduced dynamics of two identical superconducting qubits capacitively coupled through a finite-length transmission line. Starting from circuit quantization, we derive a circuit Hamiltonian that naturally separates the line modes int
Read full article →arXiv:2604.21472v1 Announce Type: new Abstract: Fault-tolerant quantum computing increasingly demands rigorous, circuit-level evaluation of diverse quantum error correction (QEC) protocols and efficient prototyping of new ones. Such evaluation requires both the physical circuit and its Detector Err
Read full article →arXiv:2604.21475v1 Announce Type: new Abstract: Photonic quantum computing provides a promising route toward quantum computation by naturally supporting the measurement-based quantum computation (MBQC) model. In MBQC, programs are executed through measurements on a pre-generated graph state, whose
Read full article →arXiv:2604.21509v1 Announce Type: new Abstract: The generalized second laws of quantum thermodynamics are usually formulated in terms of R\'enyi divergences and the associated family of generalized free energies. In catalytic thermal transformations, this framework typically certifies the existence
Read full article →arXiv:2604.21513v1 Announce Type: new Abstract: We characterize nonequilibrium phases in long-range dissipative spin systems through the statistical properties of quantum jump trajectories. While the average dynamics governed by the Lindblad master equation provides access to steady-state expectati
Read full article →arXiv:2604.21560v1 Announce Type: new Abstract: We construct mode-selective effective models describing the interaction of the quantum plasmon-polariton field supported by a finite dielectric medium and one or several quantum emitters. The construction of the effective model is based on the decompo
Read full article →arXiv:2604.21565v1 Announce Type: new Abstract: High-fidelity control of superconducting qubits requires carefully shaped microwave pulses that account for multiple error channels. In this work, we present a pedagogical introduction to pulse-shaping techniques for transmon qubits, aiming to provide
Read full article →arXiv:2604.21574v1 Announce Type: new Abstract: We propose a semiclassical framework for solving open quantum dynamics in driven-dissipative spin systems. Our method consists of generalized spin-wave approximations tailored to describing quantum trajectories unravelled from the master equation, and
Read full article →arXiv:2604.21594v1 Announce Type: new Abstract: Systematic control errors remain a primary obstacle to realizing high-fidelity single-qubit gates. We introduce composite pulse sequences that implement X and Hadamard gates while simultaneously compensating amplitude (Rabi-frequency), detuning (frequ
Read full article →arXiv:2604.21656v1 Announce Type: new Abstract: We present a new software package for efficient quantum circuit generation, designed to achieve optimal runtime performance. Despite being in an early stage of development, our implementation demonstrates significant advantages over existing tools. Us
Read full article →arXiv:2604.21659v1 Announce Type: new Abstract: The optical spectrum of a quantum system is jointly determined by the properties of the emitter and the driving field. All-optical spectral control can hence be a promising method to engineer the properties of single photon emitters for quantum techno
Read full article →arXiv:2604.21692v1 Announce Type: new Abstract: The creation of high-quality cluster states in superconducting microwave circuits is a relevant ingredient in continuous-variable quantum computing. Although large-scale cluster states have been established in optical systems, dissipation prevents the
Read full article →arXiv:2604.21695v1 Announce Type: new Abstract: We describe the design, implementation, and nine-month operational experience of the software management stack for Lagrange, an IQM Spark five-qubit superconducting quantum computer jointly acquired by LINKS Foundation, Politecnico di Torino and the I
Read full article →arXiv:2604.21705v1 Announce Type: new Abstract: We show that detecting steady-state Coulomb-mediated reduction in the thermal variance of the differential motional mode of two nanospheres can bound the Continuous Spontaneous Localization (CSL) parameter ($\lambda_{{\text{CSL}}}$). For realistic exp
Read full article →arXiv:2604.21722v1 Announce Type: new Abstract: Modular quantum computing architectures require error correction schemes that remain effective in the presence of noisy inter-processor operations. As such, minimizing the number of such operations on logical circuits partitioned across quantum proces
Read full article →arXiv:2604.21723v1 Announce Type: new Abstract: Quantum technologies in the terahertz (THz) require a coherent interface between addressable qubits and THz quantum channels -- a capacity that so far, remains largely underdeveloped. Here, we propose and demonstrate the generation of steady-state ent
Read full article →arXiv:2604.21758v1 Announce Type: new Abstract: High-quality photonic Bell state measurements (BSMs) enable scalable universal quantum computing and long distance quantum communication. However, when implemented with linear optics, BSMs are fundamentally probabilistic, introducing substantial hardw
Read full article →arXiv:2604.21778v1 Announce Type: new Abstract: We present a fast, memory-efficient, unitarity-preserving numerical method beyond the rotating-wave approximation for the closed Tavis-Cummings model in which a multilevel spin system interacts with a cavity mode. This model can describe the interacti
Read full article →arXiv:2604.21788v1 Announce Type: new Abstract: The partial oracles framework is a quantum search algorithm that has the potential to exceed the quadratic speedup of Grover's algorithm, up to a theoretical maximum of an exponential speedup. Until now, however, the framework has lacked an explicit m
Read full article →arXiv:2604.21791v1 Announce Type: new Abstract: This thesis is concerned with rigorous security analyses of practical Quantum Key Distribution (QKD) protocols, using a variety of modern proof techniques. The main results are as follows. First, we establish a security proof for variable-length QKD p
Read full article →arXiv:2604.21800v1 Announce Type: new Abstract: Exact quantum codes detecting a prescribed set of Pauli errors are approached through algebraic constructions--stabilizer, codeword-stabilized, permutation-invariant, topological, and related families. Geometrically, exact Pauli detection is governed
Read full article →arXiv:2604.21805v1 Announce Type: new Abstract: Page and Wootters (1983) showed how time and dynamics can emerge in a stationary system containing a clock. Albrecht (1995) later showed, for discrete time, that within this framework any dynamical evolution can be obtained simply by choosing a differ
Read full article →arXiv:2604.21820v1 Announce Type: new Abstract: The Dicke model (DM) serves as a paradigm for understanding collective light-matter interactions. We introduce the chiral Dicke model, a generalization where an atomic ensemble couples to a two-mode cavity via chiral interactions. Unlike the standard
Read full article →arXiv:2604.21824v1 Announce Type: new Abstract: Bosonic quantum error correction enables hardware-efficient protection of quantum information by encoding logical qubits in harmonic oscillators. Bosonic grid states, such as Gottesman-Kitaev-Preskill (GKP) states, are particularly promising due to th
Read full article →arXiv:2604.21863v1 Announce Type: new Abstract: Deep reinforcement learning (RL) for quantum circuit optimization faces three fundamental bottlenecks: replay buffers that ignore the reliability of temporal-difference (TD) targets, curriculum-based architecture search that triggers a full quantum-cl
Read full article →arXiv:2604.21866v1 Announce Type: new Abstract: Execution of quantum algorithms on large-scale quantum computers will require extremely low logical error rates, which necessitates the development of scalable decoding architectures. Local decoders are promising candidates for this task, as they avoi
Read full article →arXiv:2604.21874v1 Announce Type: new Abstract: Solid-state spin defects hold great promise as building blocks for various quantum technologies. Embedding spin centers in $p$-$n$ diodes under reverse bias has proved to be a powerful strategy to narrow the optical linewidth and increase spin coheren
Read full article →arXiv:2604.21876v1 Announce Type: new Abstract: We investigate the limits of quantum error correction (QEC) in neutral-atom processors approaching high-fidelity gates and fast cycle times. We show that shorter QEC cycles amplify platform-specific errors, notably Rydberg excitation hopping, and hind
Read full article →arXiv:2604.21902v1 Announce Type: new Abstract: Quantum networks are a keystone of the quantum internet. However, existing implementations remain largely confined to static point-to-point links due to the absence of a switching paradigm capable of dynamically routing fragile quantum entanglement wi
Read full article →arXiv:2604.21908v1 Announce Type: new Abstract: Peaked quantum circuits, whose output distribution is sharply concentrated on a single bitstring, have emerged as a promising candidate for verifiable quantum advantage, as the correctness of the quantum output can be checked by simply comparing again
Read full article →arXiv:2604.21913v1 Announce Type: new Abstract: Quantum resources such as entanglement form the backbone of quantum technologies and their efficient generation is a central objective of modern quantum platforms. Independently, quantum batteries have emerged as nanoscale devices that utilize collect
Read full article →arXiv:2604.21919v1 Announce Type: new Abstract: Belief propagation has recently emerged as a powerful framework for evaluating tensor networks in higher dimensions, combining computational efficiency with provable analytical guarantees. In this work, we develop the first end-to-end theory of tensor
Read full article →arXiv:2604.21929v1 Announce Type: new Abstract: We study spectral properties of quantum many-body Hamiltonians through a subsystem-based framework. Given a Hamiltonian of the form $H = \sum_{X \subseteq \Lambda} \Phi(X)$ acting on a tensor product Hilbert space, we associate to each subset $S \subs
Read full article →arXiv:2604.20901v1 Announce Type: cross Abstract: Nitrogen-vacancy (NV) centers in diamond are of great interest for nano- and macro-scale magnetic field sensing. Most sensing protocols rely on conventional optical readout, which is limited by photon shot noise. The recently developed photoelectric
Read full article →arXiv:2604.20969v1 Announce Type: cross Abstract: We investigate the effects of coupling a quantum-magnetic cavity field to molecules. Our high-precision auxiliary-field quantum Monte Carlo calculations capture the effect of the cavity field in the presence of electron correlations, and their inter
Read full article →arXiv:2604.21005v1 Announce Type: cross Abstract: Accurate modeling of ion-molecule reaction networks is essential for understanding the chemical evolution of planetary ionospheres, particularly for giant planets where proton-transfer chains drive atmospheric composition. However, predicting reacti
Read full article →arXiv:2604.21206v1 Announce Type: cross Abstract: We study the magnetic-field dependence of the interactions between two alkaline-earth(-like) Rydberg atoms, ${}^{88}$Sr and ${}^{174}$Yb. Considering the pair of Rydberg states $|ns,{}^3S_1,m_J\rangle$ and $|(n+1)s,{}^3S_1,m_J\rangle$, we show that
Read full article →arXiv:2604.21366v1 Announce Type: cross Abstract: Several approximation procedures, such as the full or partial rotating-wave, time-averaging, and geometric-arithmetic approximations, have been proposed to derive Gorini-Kossakowski-Sudarshan-Lindblad (GKSL) generators from the Born-Markov quantum m
Read full article →arXiv:2604.21373v1 Announce Type: cross Abstract: We consider two-dimensional harmonic oscillator in the complex Bargmann-Fock-Segal representation with $T^*{\mathbb R}^{2}={\mathbb C}^2$ as classical phase space. We show that the eigenfunctions $\psi_n$ of the quantum Hamiltonian correspond to com
Read full article →arXiv:2604.21374v1 Announce Type: cross Abstract: We show in this article the improvements which can be obtained in the description of the luminescence properties of Pr3+ doped materials by using an extension of the Judd-Ofelt theory in order to relax some strong selection rules and approximations
Read full article →arXiv:2604.21630v1 Announce Type: cross Abstract: We establish a relation between the exponential decay rates of quantum Markov semigroups with respect to different inner products. More precisely, it was conjectured by Fagnola, Poletti, Sasso and Umanit\`a that for a Gaussian quantum Markov semigro
Read full article →arXiv:2604.21755v1 Announce Type: cross Abstract: In this work, we systematically investigate the quantum-information diagnostics of cosmological perturbations with a nontrivial sound speed, utilizing a normalized open two-mode squeezed-state framework. Rather than introducing new observables, our
Read full article →arXiv:2604.21823v1 Announce Type: cross Abstract: We quantize a classically stable system of a harmonic oscillator polynomially coupled to a ghost with negative kinetic energy. We prove that due to an integral of motion with a positive discrete spectrum: i) the Hamiltonian has a pure point spectrum
Read full article →arXiv:2604.21857v1 Announce Type: cross Abstract: New sources of charge-parity (CP) violation beyond those described in the Standard Model (SM) are required to explain the observed matter--antimatter asymmetry of the Universe. The Standard Model Effective Field Theory (SMEFT) provides a framework t
Read full article →arXiv:1307.4144v2 Announce Type: replace Abstract: Non-locality is one of the hallmarks of quantum mechanics and is responsible for paradigmatic features such as entanglement and the Aharonov-Bohm effect. Non-locality comes in two flavours: a \emph{kinematic} non-locality -- arising from the struct
Read full article →arXiv:2211.00333v2 Announce Type: replace Abstract: We present a microscopic derivation from a nonequilibrium spin-boson model to a $\PT$-symmetric non-Hermitian sine-Gordon (SG) effective theory, via the Keldysh functional-integral formalism, a Lang-Firsov polaron transformation, bosonization, and
Read full article →arXiv:2409.13113v3 Announce Type: replace Abstract: Dissipative tunneling remains a cornerstone effect in quantum mechanics. In chemistry, it plays a crucial role in governing the rates of chemical reactions, often modeled as the motion along the reaction coordinate from one potential well to anoth
Read full article →arXiv:2501.08036v3 Announce Type: replace Abstract: Fault tolerance in quantum protocols requires contributions from error-correcting codes and their suitable decoders. Quantum Low-Density Parity Check (QLDPC) codes are one of the most explored quantum codes that have good coding rate and efficient
Read full article →arXiv:2505.15521v3 Announce Type: replace Abstract: One of the premier utilities of present day noisy quantum computers is simulation of many-body quantum systems. We study how long in time is such a discrete-time simulation representative of a continuous time Hamiltonian evolution, namely, a finit
Read full article →arXiv:2507.07520v3 Announce Type: replace Abstract: We offer the first operational interpretation of the $\alpha$-z relative entropies, a measure of distinguishability between two quantum states introduced by Jak\v{s}i\'c et al. and Audenaert and Datta. We show that these relative entropies appear
Read full article →arXiv:2507.18351v3 Announce Type: replace Abstract: Exploring potential empirical manifestations of quantum gravity is a challenging pursuit. In this study, we utilise a lattice representation of a (2+1)D massive gravity toy model interacting with Dirac fermions that can support specific spacetime
Read full article →arXiv:2508.17395v3 Announce Type: replace Abstract: In an earlier letter [Ducharme \textit{et al.} Phys. Rev. Lett. \textbf{126}, 134803 (2021)], a solution to the Dirac equation for a relativistic Gaussian electron beam showed that for a diverging beam the spin of each electron is the sum of fract
Read full article →arXiv:2508.19160v2 Announce Type: replace Abstract: In the emerging field of Fault Tolerant Quantum Computation (FTQC), resource estimation is an important tool for quantitatively comparing prospective architectures, identifying hardware bottlenecks and informing which research paths are most valua
Read full article →arXiv:2509.02309v2 Announce Type: replace Abstract: We describe a simple and flexible method for implementing semi-definite programming relaxations for bounding the set of quantum correlations. The method relies on obtaining equality constraints from randomly sampled moment matrices and hence allow
Read full article →arXiv:2509.06086v3 Announce Type: replace Abstract: Quantum machine learning (QML) has the potential to achieve quantum advantage for specific tasks by combining quantum computation with classical machine learning (ML). In classical ML, a significant challenge is membership-privacy leakage, whereby
Read full article →arXiv:2510.08210v4 Announce Type: replace Abstract: Calculating the quantum weight enumerator polynomial (WEP) is a valuable tool for characterizing quantum error-correcting (QEC) codes, but it is computationally hard for large or complex codes. The Quantum LEGO (QL) framework provides a tensor net
Read full article →arXiv:2510.13671v3 Announce Type: replace Abstract: We study the collective emission of a disordered array of $N$ excited two-level atoms into a one-dimensional photonic waveguide. In the perfectly ordered case, where atoms are spaced by exact integer multiples of the wavelength, the system exhibit
Read full article →arXiv:2511.23470v5 Announce Type: replace Abstract: Accurate identification of Hamiltonian parameters is essential for modeling and controlling open quantum systems. In this work, we demonstrate that the multichannel Hankel alternative view of Koopman (mHAVOK) algorithm is a robust and reliable spe
Read full article →arXiv:2512.04649v2 Announce Type: replace Abstract: The hallmark of two-dimensional chiral topological phases is the existence of anomalous gapless modes at the spatial boundary. Yet, the manifestation of this edge anomaly within the bulk ground-state wavefunction itself remains only partially unde
Read full article →arXiv:2512.12342v2 Announce Type: replace Abstract: We investigate how quantum coherence can be distributed among the several off-diagonal elements of an arbitrary density matrix. An easily computable quantity that captures this variability notion is proposed and it is argued that it presents marke
Read full article →arXiv:2512.16400v2 Announce Type: replace Abstract: We propose a quantum circuit design for implementing coined quantum walks on complex networks. In complex networks, the coin and shift operators depend on the varying degrees of the nodes, which makes circuit construction more challenging than for
Read full article →arXiv:2601.05627v2 Announce Type: replace Abstract: We investigate thermalization and the quantum-classical correspondence in the collective Bose-Hubbard model, focusing on the four-site case. Our analysis of the classical phase-space structure and its excited-state quantum phase transitions leads
Read full article →arXiv:2601.07890v2 Announce Type: replace Abstract: This work provides a quantum-computing-first derivation of the Unitary Coupled Cluster ansatz, showing that its structure emerges naturally from fermionic algebra under unitary constraints. By explicitly connecting second quantization, Jordan-Wign
Read full article →arXiv:2601.10479v2 Announce Type: replace Abstract: Variational Quantum Algorithms (VQAs) are critically threatened by the Barren Plateau (BP) phenomenon. In this work, we introduce the H-EFT Variational Ansatz (H-EFT-VA), an architecture inspired by Effective Field Theory (EFT). By enforcing a hie
Read full article →arXiv:2601.20700v4 Announce Type: replace Abstract: In molecular aggregates, multiple delocalized exciton states interact with phonons, making the state-resolved spectroscopic monitoring of dynamics challenging. We propose a protocol that combines photon-entanglement-enhanced narrowband excitation
Read full article →arXiv:2602.01943v2 Announce Type: replace Abstract: Establishing quantitative adiabaticity criteria at finite temperature remains substantially less developed than in the pure-state setting, even though realistic quantum systems are never at absolute zero. Here, by combining a mixed-state quantum s
Read full article →arXiv:2603.05320v2 Announce Type: replace Abstract: Quantum error correction will likely be essential for building a large-scale quantum computer, but it comes with significant requirements at the level of classical control software. In particular, a quantum error-correcting code must be supplement
Read full article →arXiv:2603.23656v2 Announce Type: replace Abstract: We establish an exact information-geometric inequality that remains valid regardless of the underlying dynamics, encompassing both Markovian and non-Markovian evolutions within the mixed-state domain. This inequality can be viewed as an extension
Read full article →arXiv:2603.26826v4 Announce Type: replace Abstract: A generalized formulation of non-relativistic quantum mechanics is developed within multidimensional geometric (NG) frameworks characterized by a power-law dispersion relation \(E \propto |p|^{j}\), where \(j = N - 1\). Starting from the generaliz
Read full article →arXiv:2603.27397v2 Announce Type: replace Abstract: Both Superconducting and Ion-Trap are leading quantum architectures common in the current landscape of the quantum computing field, each with distinct characteristics and operational constraints. Understanding and measuring the underlying quantumn
Read full article →arXiv:2603.29439v3 Announce Type: replace Abstract: Superconducting quantum processor units (QPUs) are incapable of producing massive datasets for quantum error correction (QEC) because of hardware limitations. Thus, QEC decoders heavily depend on synthetic data from qubit error models. Classic dep
Read full article →arXiv:2604.04685v2 Announce Type: replace Abstract: We propose a data-adaptive probabilistic intensity remapping framework for structure-preserving transformation of grayscale images. The suggested method formulates intensity transformation as a continuous, data-driven remapping process, in contras
Read full article →arXiv:2604.12577v2 Announce Type: replace Abstract: Quantum key distribution protocols based on the quantum eraser phenomenon offer an operational advantage: automatic identification of matching and mismatching encoding choices through interference, eliminating basis reconciliation. However, binary
Read full article →arXiv:2604.19855v2 Announce Type: replace Abstract: Practical quantum advantage is expected to depend on fault-tolerant quantum computing, although the architectural overhead needed to support fault tolerance is still extremely high. Prior FTQC designs generally emphasize either fast logical-qubit
Read full article →arXiv:2506.21534v2 Announce Type: replace-cross Abstract: One of the most important physical effects in condensed matter physics is the Rashba spin-orbit coupling (RSOC), introduced in seminal works by Emmanuel Rashba. In this article, we discuss, describe, and review (providing critical perspectiv
Read full article →Insider Brief PRESS RELEASE — Q.ANT, the pioneer in commercial photonic computing, today announced the opening of its U.S. headquarters in Austin, Texas, and the appointment of semiconductor veteran Bruno Spruth as Chief Technology Officer.  Spruth, who previously served as Vice
Read full article →Insider Brief PRESS RELEASE — Zapata Quantum (OTC: ZPTA) (“Zapata”, “Zapata Quantum” or the “Company”), a pioneer in quantum computing application and algorithm development, today announced the completion of an oversubscribed $15 million financing led by Triatomic Capital, a leading technology
Read full article →Insider Brief PRESS RELEASE — enQase, a pioneer in quantum security and crypto-agility, today announced the addition of Mahi Dontamsetti to the enQase Advisory Board. The appointment strengthens enQase leadership across board-level technology and risk governance as organizations prepare for th
Read full article →Insider Brief PRESS RELEASE — Quantum Computing Inc. (“QCi” or the “Company”) (NASDAQ: QUBT) an innovative, quantum optics and integrated photonics technology company, today announced that NeuraWave, its next-generation photonic reservoir computing platform first debuted at SC25, is
Read full article →Insider Brief PRESS RELEASE — Classiq, the leading quantum computing software company, today announced a significant acceleration for quantum software development: a new AI agentic layer that enables users to move from natural-language intent to structured, executable quantum applications, pow
Read full article →Insider Brief PRESS RELEASE — Cisco (NASDAQ: CSCO) today announced the Cisco Universal Quantum Switch, a critical milestone in quantum networking that addresses one of the most fundamental barriers to building a quantum network. As a working research prototype, it is the latest proof point in
Read full article →The most demanding calculations in quantum chemistry can now be solved with graphics processing unit (GPU) supercomputers. A recently published study shows that software adapted to use GPU hardware can provide not just speed, but also the accuracy needed to solve complex chemistry problems. The work
Read full article →Semiconductor spin qubits are a promising candidate for the building blocks of next-generation quantum computers due to their high potential for integration and compatibility with existing semiconductor technologies. Qubits—like the 0s and 1s of a traditional computer—serve as a basic unit of inform
Read full article →Quantum computers, devices that process information leveraging quantum mechanical effects, could tackle some tasks that are difficult or impossible to solve using classical computers. These systems represent data as qubits, units of information that can exist in multiple states at once, unlike the b
Read full article →Researchers in the US and Germany have unveiled a theoretical blueprint for an atomic clock driven by a highly synchronized laser, where atoms work in concert rather than independently. Publishing their results in Physical Review Letters, Jarrod Reilly at the University of Colorado, Simon Jäger at t
Read full article →Guest post by Sean Harpur, CEO of Moth When people talk about the race to build quantum computers, the conversation usually focuses on hardware. How many qubits a machine has. How stable those qubits are. How close researchers are to overcoming the engineering challenges that have held the field bac
Read full article →Classiq has announced a new AI agentic layer designed to translate natural-language intent into structured, executable quantum applications. Powered by a first-generation expert-level quantum agent, this capability allows users to move beyond manual gate-level coding by describing high-level computa
Read full article →Q.ANT, a Stuttgart-based developer of photonic computing hardware, has announced the opening of its U.S. headquarters in Austin, Texas. To lead its North American operations and global technology strategy, the company has appointed semiconductor veteran Bruno Spruth as Chief Technology Officer. Spru
Read full article →Zapata Quantum (OTC: ZPTA) has announced the completion of an oversubscribed $15 million strategic financing round, marking the final milestone of a year-long organizational and financial restructuring. Led by Triatomic Capital, the funding is designated to scale the company's hardware-agnostic quan
Read full article →Quantum Computing Inc. (QCi) has announced that NeuraWave, its photonic reservoir computing platform, is now deployment-ready for commercial orders. Designed as a standard PCIe plug-in card, the system utilizes a hybrid photonic-digital architecture to perform real-time artificial intelligence (AI)
Read full article →Cisco has announced a research prototype of the Cisco Universal Quantum Switch, a device designed to route and translate quantum information between systems using different encoding modalities. While existing quantum networking components are typically restricted to a single type of encoding, this s
Read full article →QC Design has announced the launch of Gauge, a technical extension of its Plaquette software platform designed to determine the optimal fault-tolerance thresholds for quantum error correction (QEC) codes. By mapping the decoding problem onto a statistical mechanical system, Gauge identifies the maxi
Read full article →Long-awaited policy shift could ease barriers for scientists who study the drug
Read full article →Results are “only the tip of the iceberg” of shadowy paper-mill marketplace
Read full article →Maturing mouse sperm get loaded with full-length messenger RNAs that are transferred to fertilized egg, suggesting a new route for paternal influence
Read full article →First treatment for an inherited hearing disorder will be free in the United States
Read full article →Giant cephalopods may have rivaled marine reptiles as apex predators during the age of the dinosaurs
Read full article →Method that leaches radioactive metal from aquifers can leave groundwater contaminated, researchers say
Read full article →It was a head-spinning discovery. In 2018, researchers in Japan claimed to find concrete evidence of an elusive particle, a Majorana fermion, in a quantum spin liquid called ruthenium trichloride. Majoranas are highly sought-after by quantum materials scientists because when a pair are localized, or
Read full article →A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature superconductivity. Physicist Dr. Sebastian Paeckel has developed a method that can be used to calculate spectral functions of complex quantum systems much more precisely than was poss
Read full article →When you throw a ball in the air, the equations of classical physics will tell you exactly what path the ball will take as it falls, and when and where it will land. But if you were to squeeze that same ball down to the size of an atom or smaller, it would behave in ways beyond anything that classic
Read full article →A tiny discrepancy in particle physics has loomed for decades as an exciting possible crack in one of science's most successful theories, hinting at unknown forces or quantum objects. Now, an international team led by a Penn State physicist has published the most precise study yet to reveal the disc
Read full article →Only about 5% of the universe is composed of normal matter that we can directly observe, while the remaining 95% is widely believed to consist of dark matter and dark energy. Paradoxically, however, the nature of these dark components remains unknown. Is this due to limitations in our observational
Read full article →npj Quantum Information, Published online: 22 April 2026; doi:10.1038/s41534-026-01241-ySurface-code hardware Hamiltonian
Read full article →A lipid synthesized on skin may promote brain development—and a swabbing with vaginal fluid can provide it to C-section babies, study finds
Read full article →Genetically diverse groups arrived in three waves, some potentially carrying genes acquired from long-ago Australasian ancestors
Read full article →As long as there's been an internet, there's been a way to hack it. Scientists have spent decades imagining a different kind of network, one where the laws of physics make eavesdropping physically impossible, not just technically difficult. They call that dream a quantum internet.
Read full article →Researchers from the University of Twente and Harvard University have developed a new way to generate ultraviolet (UV) light on a photonic chip at power levels high enough for real-world use. For the first time, the technique produces milliwatt-level UV light on a chip. It is an important step for q
Read full article →Researchers have discovered a new way to tune the quantum properties of tiny defects in diamond—by gently stretching or compressing the crystal. These findings could pave the way for next-generation sensors that can detect pressure, temperature, and other physical changes with unprecedented precisio
Read full article →A quantum spin liquid is a phase of matter in which the magnetic moments in a material do not align or freeze, even at temperatures close to absolute zero (i.e., at 0 K). The experimental realization of this highly dynamic state could have important implications for the development of quantum comput
Read full article →npj Quantum Information, Published online: 21 April 2026; doi:10.1038/s41534-026-01247-6Distributed quantum inner product estimation with structured random circuits
Read full article →npj Quantum Information, Published online: 21 April 2026; doi:10.1038/s41534-026-01221-2Two-qubit gates using on-demand single-photons from ordered shape and size controlled large-volume superradiant quantum dots
Read full article →Donut Lab’s assertions of lightning-fast charging and high energy storage have led to a criminal complaint
Read full article →Study captures a hidden stress response in roadside orb weavers
Read full article →The cosmological constant is the mathematical description of the energy that drives the ever-accelerating expansion of the cosmos. It's also the source of one of the most enduring and confounding problems in modern physics.
Read full article →A new theoretical study finds shorter laser pulses achieve higher quantum efficiency for photoemission from a solid surface without increasing power or intensity. Using light to knock electrons loose from a surface—known as photoemission—may soon be achievable more easily in smaller labs with smalle
Read full article →A joint theoretical study by the University of Innsbruck and Zhejiang University has uncovered the microscopic origin of a striking quantum phenomenon: a periodically driven gas of ultracold atoms that simply refuses to heat up, defying classical expectations.
Read full article →Superconducting qubits—bits of quantum information—have been widely considered a promising technology for moving quantum computing forward. But there's still much work to be done before they can be brought out of a near absolute zero temperature environment. The lab of Professor Hong Tang has recent
Read full article →Few concepts in physics are as familiar, yet as enigmatic, as time. In Einstein's theory of relativity, time is not absolute: its passage depends on motion and gravity. But when combined with quantum physics, this relativistic form of time becomes even more counterintuitive.
Read full article →Two independent research teams have each demonstrated collisional quantum gates using fermionic atoms: a long-sought milestone in quantum computing where logic operations are performed through the direct physical overlap of atoms, rather than forcing them into fragile, highly excited states.
Read full article →In the quirky quantum world, particles can be affected by forces that they never directly encounter. A classic example is the Aharonov–Bohm (AB) effect, where electrons are affected by a magnetic field, despite not passing through it. Although predicted in 1959, it took more than two decades to conf
Read full article →Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices—a detrimental process that slowly degrades performance over time. The discovery, published as an Editors' Suggestion
Read full article →A new study published in Nature Communications has shown that in the asymptotic limit, extracting the maximum possible work from many copies of a quantum system does not require knowing exactly what state that system is in.
Read full article →A joint research team led by Professor Park Kyoung-Duck and Associate Director Suh Yung Doug of the Center for Multidimensional Carbon Materials within the Institute for Basic Science (IBS) has succeeded in realizing a high-efficiency quantum light source that emits bright lights even at room temper
Read full article →An AI model informed by calculations from a quantum computer can better predict the behavior of a complex physical system over the long term than current best models that use only conventional computers, according to a new study led by UCL (University College London) researchers. The findings, publi
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01228-9Collective purification of interacting quantum networks beyond symmetry constraints
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01229-8Quantum reservoir computing induced by controllable damping
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01236-9Time-series forecasting with multiphoton quantum states and integrated photonics
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01246-7Beyond boson sampling: higher spin sampling as a practical path to quantum supremacy
Read full article →A new Bar-Ilan University study points to a major advance in quantum information processing, demonstrating a way to send, manipulate, and measure quantum information across many frequency channels simultaneously, rather than one at a time. The study was recently published in the journal Science Adva
Read full article →Thin films might not come up in conversation every day, but they are all around us. Take the metallic plastic films of chip bags, for example, or the anti-reflective coatings on eyeglasses. Even the coatings on pills that make them easier to swallow are thin films. Depositing extremely thin layers o
Read full article →The spin-off company ParityQC has implemented the largest quantum Fourier transform ever reported using an IBM quantum computer, thereby setting a new milestone on the path toward the industrial application of quantum computers. The quantum Fourier transform is a cornerstone algorithm with applicati
Read full article →Researchers at Ben-Gurion University of the Negev have developed a new approach to secure optical communication that hides information in the physical structure of light, making it difficult for unauthorized parties to intercept or decode. The study addresses a growing challenge: advances in quantum
Read full article →Classiq has announced a new AI agentic layer designed to translate natural-language intent into structured, executable quantum applications. Powered by a first-generation expert-level quantum agent, this capability allows users to move beyond manual gate-level coding by describing high-level computa
Read full article →Q.ANT, a Stuttgart-based developer of photonic computing hardware, has announced the opening of its U.S. headquarters in Austin, Texas. To lead its North American operations and global technology strategy, the company has appointed semiconductor veteran Bruno Spruth as Chief Technology Officer. Spru
Read full article →Zapata Quantum (OTC: ZPTA) has announced the completion of an oversubscribed $15 million strategic financing round, marking the final milestone of a year-long organizational and financial restructuring. Led by Triatomic Capital, the funding is designated to scale the company's hardware-agnostic quan
Read full article →Quantum Computing Inc. (QCi) has announced that NeuraWave, its photonic reservoir computing platform, is now deployment-ready for commercial orders. Designed as a standard PCIe plug-in card, the system utilizes a hybrid photonic-digital architecture to perform real-time artificial intelligence (AI)
Read full article →Cisco has announced a research prototype of the Cisco Universal Quantum Switch, a device designed to route and translate quantum information between systems using different encoding modalities. While existing quantum networking components are typically restricted to a single type of encoding, this s
Read full article →QC Design has announced the launch of Gauge, a technical extension of its Plaquette software platform designed to determine the optimal fault-tolerance thresholds for quantum error correction (QEC) codes. By mapping the decoding problem onto a statistical mechanical system, Gauge identifies the maxi
Read full article →Long-awaited policy shift could ease barriers for scientists who study the drug
Read full article →Results are “only the tip of the iceberg” of shadowy paper-mill marketplace
Read full article →Maturing mouse sperm get loaded with full-length messenger RNAs that are transferred to fertilized egg, suggesting a new route for paternal influence
Read full article →First treatment for an inherited hearing disorder will be free in the United States
Read full article →Giant cephalopods may have rivaled marine reptiles as apex predators during the age of the dinosaurs
Read full article →Method that leaches radioactive metal from aquifers can leave groundwater contaminated, researchers say
Read full article →It was a head-spinning discovery. In 2018, researchers in Japan claimed to find concrete evidence of an elusive particle, a Majorana fermion, in a quantum spin liquid called ruthenium trichloride. Majoranas are highly sought-after by quantum materials scientists because when a pair are localized, or
Read full article →A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature superconductivity. Physicist Dr. Sebastian Paeckel has developed a method that can be used to calculate spectral functions of complex quantum systems much more precisely than was poss
Read full article →When you throw a ball in the air, the equations of classical physics will tell you exactly what path the ball will take as it falls, and when and where it will land. But if you were to squeeze that same ball down to the size of an atom or smaller, it would behave in ways beyond anything that classic
Read full article →A tiny discrepancy in particle physics has loomed for decades as an exciting possible crack in one of science's most successful theories, hinting at unknown forces or quantum objects. Now, an international team led by a Penn State physicist has published the most precise study yet to reveal the disc
Read full article →Only about 5% of the universe is composed of normal matter that we can directly observe, while the remaining 95% is widely believed to consist of dark matter and dark energy. Paradoxically, however, the nature of these dark components remains unknown. Is this due to limitations in our observational
Read full article →A lipid synthesized on skin may promote brain development—and a swabbing with vaginal fluid can provide it to C-section babies, study finds
Read full article →Genetically diverse groups arrived in three waves, some potentially carrying genes acquired from long-ago Australasian ancestors
Read full article →As long as there's been an internet, there's been a way to hack it. Scientists have spent decades imagining a different kind of network, one where the laws of physics make eavesdropping physically impossible, not just technically difficult. They call that dream a quantum internet.
Read full article →Researchers from the University of Twente and Harvard University have developed a new way to generate ultraviolet (UV) light on a photonic chip at power levels high enough for real-world use. For the first time, the technique produces milliwatt-level UV light on a chip. It is an important step for q
Read full article →Researchers have discovered a new way to tune the quantum properties of tiny defects in diamond—by gently stretching or compressing the crystal. These findings could pave the way for next-generation sensors that can detect pressure, temperature, and other physical changes with unprecedented precisio
Read full article →A quantum spin liquid is a phase of matter in which the magnetic moments in a material do not align or freeze, even at temperatures close to absolute zero (i.e., at 0 K). The experimental realization of this highly dynamic state could have important implications for the development of quantum comput
Read full article →Donut Lab’s assertions of lightning-fast charging and high energy storage have led to a criminal complaint
Read full article →Study captures a hidden stress response in roadside orb weavers
Read full article →The cosmological constant is the mathematical description of the energy that drives the ever-accelerating expansion of the cosmos. It's also the source of one of the most enduring and confounding problems in modern physics.
Read full article →A new theoretical study finds shorter laser pulses achieve higher quantum efficiency for photoemission from a solid surface without increasing power or intensity. Using light to knock electrons loose from a surface—known as photoemission—may soon be achievable more easily in smaller labs with smalle
Read full article →A joint theoretical study by the University of Innsbruck and Zhejiang University has uncovered the microscopic origin of a striking quantum phenomenon: a periodically driven gas of ultracold atoms that simply refuses to heat up, defying classical expectations.
Read full article →Superconducting qubits—bits of quantum information—have been widely considered a promising technology for moving quantum computing forward. But there's still much work to be done before they can be brought out of a near absolute zero temperature environment. The lab of Professor Hong Tang has recent
Read full article →Few concepts in physics are as familiar, yet as enigmatic, as time. In Einstein's theory of relativity, time is not absolute: its passage depends on motion and gravity. But when combined with quantum physics, this relativistic form of time becomes even more counterintuitive.
Read full article →Two independent research teams have each demonstrated collisional quantum gates using fermionic atoms: a long-sought milestone in quantum computing where logic operations are performed through the direct physical overlap of atoms, rather than forcing them into fragile, highly excited states.
Read full article →In the quirky quantum world, particles can be affected by forces that they never directly encounter. A classic example is the Aharonov–Bohm (AB) effect, where electrons are affected by a magnetic field, despite not passing through it. Although predicted in 1959, it took more than two decades to conf
Read full article →Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices—a detrimental process that slowly degrades performance over time. The discovery, published as an Editors' Suggestion
Read full article →A new study published in Nature Communications has shown that in the asymptotic limit, extracting the maximum possible work from many copies of a quantum system does not require knowing exactly what state that system is in.
Read full article →A joint research team led by Professor Park Kyoung-Duck and Associate Director Suh Yung Doug of the Center for Multidimensional Carbon Materials within the Institute for Basic Science (IBS) has succeeded in realizing a high-efficiency quantum light source that emits bright lights even at room temper
Read full article →An AI model informed by calculations from a quantum computer can better predict the behavior of a complex physical system over the long term than current best models that use only conventional computers, according to a new study led by UCL (University College London) researchers. The findings, publi
Read full article →A new Bar-Ilan University study points to a major advance in quantum information processing, demonstrating a way to send, manipulate, and measure quantum information across many frequency channels simultaneously, rather than one at a time. The study was recently published in the journal Science Adva
Read full article →Thin films might not come up in conversation every day, but they are all around us. Take the metallic plastic films of chip bags, for example, or the anti-reflective coatings on eyeglasses. Even the coatings on pills that make them easier to swallow are thin films. Depositing extremely thin layers o
Read full article →The spin-off company ParityQC has implemented the largest quantum Fourier transform ever reported using an IBM quantum computer, thereby setting a new milestone on the path toward the industrial application of quantum computers. The quantum Fourier transform is a cornerstone algorithm with applicati
Read full article →Researchers at Ben-Gurion University of the Negev have developed a new approach to secure optical communication that hides information in the physical structure of light, making it difficult for unauthorized parties to intercept or decode. The study addresses a growing challenge: advances in quantum
Read full article →arXiv:2604.21333v1 Announce Type: new Abstract: We present pygridsynth, an open-source Python library for ancilla-free approximate Clifford+$T$ synthesis that runs in $O(\log(1/\epsilon))$ for precision $\epsilon$. For $n=1, 2$ qubits, the library builds upon established efficient and high-precisio
Read full article →arXiv:2604.21342v1 Announce Type: new Abstract: Magnetic quantum sensors based on trapped ions utilize properties of quantum mechanics which have optimized precision and beat current limits in sensor technology. Trapped ions are highly sensitive in a large span of signal ranging from DC or static B
Read full article →arXiv:2604.21348v1 Announce Type: new Abstract: We prove an exact quantum conservation law for a harmonic oscillator coupled to a ghost degree of freedom: a second classical conserved quantity lifts to a quantum operator that commutes with the Hamiltonian with no hbar corrections, yielding a rigoro
Read full article →arXiv:2604.21350v1 Announce Type: new Abstract: We investigate optimized vertical ion-shuttling protocols for trapped-ion applications across a range of ion-trap experiments, including three-dimensional gradient-measurement sensors, on-chip ion fluorescence collection and imaging, improved laser ac
Read full article →arXiv:2604.21388v1 Announce Type: new Abstract: High-precision optical phase stabilization in quantum networks is fundamentally constrained by the strict photon-flux and duty-cycle limits required to avoid disturbing fragile quantum states. This challenge becomes especially critical when coordinati
Read full article →arXiv:2604.21458v1 Announce Type: new Abstract: Closed-loop superconducting-qubit calibration has matured into DAG-orchestrated protocol chains, yet published frameworks treat the bath via a Markovian master equation or a phenomenological likelihood, absorbing bath structure into fit residuals inst
Read full article →arXiv:2604.21463v1 Announce Type: new Abstract: We investigate the reduced dynamics of two identical superconducting qubits capacitively coupled through a finite-length transmission line. Starting from circuit quantization, we derive a circuit Hamiltonian that naturally separates the line modes int
Read full article →arXiv:2604.21472v1 Announce Type: new Abstract: Fault-tolerant quantum computing increasingly demands rigorous, circuit-level evaluation of diverse quantum error correction (QEC) protocols and efficient prototyping of new ones. Such evaluation requires both the physical circuit and its Detector Err
Read full article →arXiv:2604.21475v1 Announce Type: new Abstract: Photonic quantum computing provides a promising route toward quantum computation by naturally supporting the measurement-based quantum computation (MBQC) model. In MBQC, programs are executed through measurements on a pre-generated graph state, whose
Read full article →arXiv:2604.21509v1 Announce Type: new Abstract: The generalized second laws of quantum thermodynamics are usually formulated in terms of R\'enyi divergences and the associated family of generalized free energies. In catalytic thermal transformations, this framework typically certifies the existence
Read full article →arXiv:2604.21513v1 Announce Type: new Abstract: We characterize nonequilibrium phases in long-range dissipative spin systems through the statistical properties of quantum jump trajectories. While the average dynamics governed by the Lindblad master equation provides access to steady-state expectati
Read full article →arXiv:2604.21560v1 Announce Type: new Abstract: We construct mode-selective effective models describing the interaction of the quantum plasmon-polariton field supported by a finite dielectric medium and one or several quantum emitters. The construction of the effective model is based on the decompo
Read full article →arXiv:2604.21565v1 Announce Type: new Abstract: High-fidelity control of superconducting qubits requires carefully shaped microwave pulses that account for multiple error channels. In this work, we present a pedagogical introduction to pulse-shaping techniques for transmon qubits, aiming to provide
Read full article →arXiv:2604.21574v1 Announce Type: new Abstract: We propose a semiclassical framework for solving open quantum dynamics in driven-dissipative spin systems. Our method consists of generalized spin-wave approximations tailored to describing quantum trajectories unravelled from the master equation, and
Read full article →arXiv:2604.21594v1 Announce Type: new Abstract: Systematic control errors remain a primary obstacle to realizing high-fidelity single-qubit gates. We introduce composite pulse sequences that implement X and Hadamard gates while simultaneously compensating amplitude (Rabi-frequency), detuning (frequ
Read full article →arXiv:2604.21656v1 Announce Type: new Abstract: We present a new software package for efficient quantum circuit generation, designed to achieve optimal runtime performance. Despite being in an early stage of development, our implementation demonstrates significant advantages over existing tools. Us
Read full article →arXiv:2604.21659v1 Announce Type: new Abstract: The optical spectrum of a quantum system is jointly determined by the properties of the emitter and the driving field. All-optical spectral control can hence be a promising method to engineer the properties of single photon emitters for quantum techno
Read full article →arXiv:2604.21692v1 Announce Type: new Abstract: The creation of high-quality cluster states in superconducting microwave circuits is a relevant ingredient in continuous-variable quantum computing. Although large-scale cluster states have been established in optical systems, dissipation prevents the
Read full article →arXiv:2604.21695v1 Announce Type: new Abstract: We describe the design, implementation, and nine-month operational experience of the software management stack for Lagrange, an IQM Spark five-qubit superconducting quantum computer jointly acquired by LINKS Foundation, Politecnico di Torino and the I
Read full article →arXiv:2604.21705v1 Announce Type: new Abstract: We show that detecting steady-state Coulomb-mediated reduction in the thermal variance of the differential motional mode of two nanospheres can bound the Continuous Spontaneous Localization (CSL) parameter ($\lambda_{{\text{CSL}}}$). For realistic exp
Read full article →arXiv:2604.21722v1 Announce Type: new Abstract: Modular quantum computing architectures require error correction schemes that remain effective in the presence of noisy inter-processor operations. As such, minimizing the number of such operations on logical circuits partitioned across quantum proces
Read full article →arXiv:2604.21723v1 Announce Type: new Abstract: Quantum technologies in the terahertz (THz) require a coherent interface between addressable qubits and THz quantum channels -- a capacity that so far, remains largely underdeveloped. Here, we propose and demonstrate the generation of steady-state ent
Read full article →arXiv:2604.21758v1 Announce Type: new Abstract: High-quality photonic Bell state measurements (BSMs) enable scalable universal quantum computing and long distance quantum communication. However, when implemented with linear optics, BSMs are fundamentally probabilistic, introducing substantial hardw
Read full article →arXiv:2604.21778v1 Announce Type: new Abstract: We present a fast, memory-efficient, unitarity-preserving numerical method beyond the rotating-wave approximation for the closed Tavis-Cummings model in which a multilevel spin system interacts with a cavity mode. This model can describe the interacti
Read full article →arXiv:2604.21788v1 Announce Type: new Abstract: The partial oracles framework is a quantum search algorithm that has the potential to exceed the quadratic speedup of Grover's algorithm, up to a theoretical maximum of an exponential speedup. Until now, however, the framework has lacked an explicit m
Read full article →arXiv:2604.21791v1 Announce Type: new Abstract: This thesis is concerned with rigorous security analyses of practical Quantum Key Distribution (QKD) protocols, using a variety of modern proof techniques. The main results are as follows. First, we establish a security proof for variable-length QKD p
Read full article →arXiv:2604.21800v1 Announce Type: new Abstract: Exact quantum codes detecting a prescribed set of Pauli errors are approached through algebraic constructions--stabilizer, codeword-stabilized, permutation-invariant, topological, and related families. Geometrically, exact Pauli detection is governed
Read full article →arXiv:2604.21805v1 Announce Type: new Abstract: Page and Wootters (1983) showed how time and dynamics can emerge in a stationary system containing a clock. Albrecht (1995) later showed, for discrete time, that within this framework any dynamical evolution can be obtained simply by choosing a differ
Read full article →arXiv:2604.21820v1 Announce Type: new Abstract: The Dicke model (DM) serves as a paradigm for understanding collective light-matter interactions. We introduce the chiral Dicke model, a generalization where an atomic ensemble couples to a two-mode cavity via chiral interactions. Unlike the standard
Read full article →arXiv:2604.21824v1 Announce Type: new Abstract: Bosonic quantum error correction enables hardware-efficient protection of quantum information by encoding logical qubits in harmonic oscillators. Bosonic grid states, such as Gottesman-Kitaev-Preskill (GKP) states, are particularly promising due to th
Read full article →arXiv:2604.21863v1 Announce Type: new Abstract: Deep reinforcement learning (RL) for quantum circuit optimization faces three fundamental bottlenecks: replay buffers that ignore the reliability of temporal-difference (TD) targets, curriculum-based architecture search that triggers a full quantum-cl
Read full article →arXiv:2604.21866v1 Announce Type: new Abstract: Execution of quantum algorithms on large-scale quantum computers will require extremely low logical error rates, which necessitates the development of scalable decoding architectures. Local decoders are promising candidates for this task, as they avoi
Read full article →arXiv:2604.21874v1 Announce Type: new Abstract: Solid-state spin defects hold great promise as building blocks for various quantum technologies. Embedding spin centers in $p$-$n$ diodes under reverse bias has proved to be a powerful strategy to narrow the optical linewidth and increase spin coheren
Read full article →arXiv:2604.21876v1 Announce Type: new Abstract: We investigate the limits of quantum error correction (QEC) in neutral-atom processors approaching high-fidelity gates and fast cycle times. We show that shorter QEC cycles amplify platform-specific errors, notably Rydberg excitation hopping, and hind
Read full article →arXiv:2604.21902v1 Announce Type: new Abstract: Quantum networks are a keystone of the quantum internet. However, existing implementations remain largely confined to static point-to-point links due to the absence of a switching paradigm capable of dynamically routing fragile quantum entanglement wi
Read full article →arXiv:2604.21908v1 Announce Type: new Abstract: Peaked quantum circuits, whose output distribution is sharply concentrated on a single bitstring, have emerged as a promising candidate for verifiable quantum advantage, as the correctness of the quantum output can be checked by simply comparing again
Read full article →arXiv:2604.21913v1 Announce Type: new Abstract: Quantum resources such as entanglement form the backbone of quantum technologies and their efficient generation is a central objective of modern quantum platforms. Independently, quantum batteries have emerged as nanoscale devices that utilize collect
Read full article →arXiv:2604.21919v1 Announce Type: new Abstract: Belief propagation has recently emerged as a powerful framework for evaluating tensor networks in higher dimensions, combining computational efficiency with provable analytical guarantees. In this work, we develop the first end-to-end theory of tensor
Read full article →arXiv:2604.21929v1 Announce Type: new Abstract: We study spectral properties of quantum many-body Hamiltonians through a subsystem-based framework. Given a Hamiltonian of the form $H = \sum_{X \subseteq \Lambda} \Phi(X)$ acting on a tensor product Hilbert space, we associate to each subset $S \subs
Read full article →arXiv:2604.20901v1 Announce Type: cross Abstract: Nitrogen-vacancy (NV) centers in diamond are of great interest for nano- and macro-scale magnetic field sensing. Most sensing protocols rely on conventional optical readout, which is limited by photon shot noise. The recently developed photoelectric
Read full article →arXiv:2604.20969v1 Announce Type: cross Abstract: We investigate the effects of coupling a quantum-magnetic cavity field to molecules. Our high-precision auxiliary-field quantum Monte Carlo calculations capture the effect of the cavity field in the presence of electron correlations, and their inter
Read full article →arXiv:2604.21005v1 Announce Type: cross Abstract: Accurate modeling of ion-molecule reaction networks is essential for understanding the chemical evolution of planetary ionospheres, particularly for giant planets where proton-transfer chains drive atmospheric composition. However, predicting reacti
Read full article →arXiv:2604.21206v1 Announce Type: cross Abstract: We study the magnetic-field dependence of the interactions between two alkaline-earth(-like) Rydberg atoms, ${}^{88}$Sr and ${}^{174}$Yb. Considering the pair of Rydberg states $|ns,{}^3S_1,m_J\rangle$ and $|(n+1)s,{}^3S_1,m_J\rangle$, we show that
Read full article →arXiv:2604.21366v1 Announce Type: cross Abstract: Several approximation procedures, such as the full or partial rotating-wave, time-averaging, and geometric-arithmetic approximations, have been proposed to derive Gorini-Kossakowski-Sudarshan-Lindblad (GKSL) generators from the Born-Markov quantum m
Read full article →arXiv:2604.21373v1 Announce Type: cross Abstract: We consider two-dimensional harmonic oscillator in the complex Bargmann-Fock-Segal representation with $T^*{\mathbb R}^{2}={\mathbb C}^2$ as classical phase space. We show that the eigenfunctions $\psi_n$ of the quantum Hamiltonian correspond to com
Read full article →arXiv:2604.21374v1 Announce Type: cross Abstract: We show in this article the improvements which can be obtained in the description of the luminescence properties of Pr3+ doped materials by using an extension of the Judd-Ofelt theory in order to relax some strong selection rules and approximations
Read full article →arXiv:2604.21630v1 Announce Type: cross Abstract: We establish a relation between the exponential decay rates of quantum Markov semigroups with respect to different inner products. More precisely, it was conjectured by Fagnola, Poletti, Sasso and Umanit\`a that for a Gaussian quantum Markov semigro
Read full article →arXiv:2604.21755v1 Announce Type: cross Abstract: In this work, we systematically investigate the quantum-information diagnostics of cosmological perturbations with a nontrivial sound speed, utilizing a normalized open two-mode squeezed-state framework. Rather than introducing new observables, our
Read full article →arXiv:2604.21823v1 Announce Type: cross Abstract: We quantize a classically stable system of a harmonic oscillator polynomially coupled to a ghost with negative kinetic energy. We prove that due to an integral of motion with a positive discrete spectrum: i) the Hamiltonian has a pure point spectrum
Read full article →arXiv:2604.21857v1 Announce Type: cross Abstract: New sources of charge-parity (CP) violation beyond those described in the Standard Model (SM) are required to explain the observed matter--antimatter asymmetry of the Universe. The Standard Model Effective Field Theory (SMEFT) provides a framework t
Read full article →arXiv:1307.4144v2 Announce Type: replace Abstract: Non-locality is one of the hallmarks of quantum mechanics and is responsible for paradigmatic features such as entanglement and the Aharonov-Bohm effect. Non-locality comes in two flavours: a \emph{kinematic} non-locality -- arising from the struct
Read full article →arXiv:2211.00333v2 Announce Type: replace Abstract: We present a microscopic derivation from a nonequilibrium spin-boson model to a $\PT$-symmetric non-Hermitian sine-Gordon (SG) effective theory, via the Keldysh functional-integral formalism, a Lang-Firsov polaron transformation, bosonization, and
Read full article →arXiv:2409.13113v3 Announce Type: replace Abstract: Dissipative tunneling remains a cornerstone effect in quantum mechanics. In chemistry, it plays a crucial role in governing the rates of chemical reactions, often modeled as the motion along the reaction coordinate from one potential well to anoth
Read full article →arXiv:2501.08036v3 Announce Type: replace Abstract: Fault tolerance in quantum protocols requires contributions from error-correcting codes and their suitable decoders. Quantum Low-Density Parity Check (QLDPC) codes are one of the most explored quantum codes that have good coding rate and efficient
Read full article →arXiv:2505.15521v3 Announce Type: replace Abstract: One of the premier utilities of present day noisy quantum computers is simulation of many-body quantum systems. We study how long in time is such a discrete-time simulation representative of a continuous time Hamiltonian evolution, namely, a finit
Read full article →arXiv:2507.07520v3 Announce Type: replace Abstract: We offer the first operational interpretation of the $\alpha$-z relative entropies, a measure of distinguishability between two quantum states introduced by Jak\v{s}i\'c et al. and Audenaert and Datta. We show that these relative entropies appear
Read full article →arXiv:2507.18351v3 Announce Type: replace Abstract: Exploring potential empirical manifestations of quantum gravity is a challenging pursuit. In this study, we utilise a lattice representation of a (2+1)D massive gravity toy model interacting with Dirac fermions that can support specific spacetime
Read full article →arXiv:2508.17395v3 Announce Type: replace Abstract: In an earlier letter [Ducharme \textit{et al.} Phys. Rev. Lett. \textbf{126}, 134803 (2021)], a solution to the Dirac equation for a relativistic Gaussian electron beam showed that for a diverging beam the spin of each electron is the sum of fract
Read full article →arXiv:2508.19160v2 Announce Type: replace Abstract: In the emerging field of Fault Tolerant Quantum Computation (FTQC), resource estimation is an important tool for quantitatively comparing prospective architectures, identifying hardware bottlenecks and informing which research paths are most valua
Read full article →arXiv:2509.02309v2 Announce Type: replace Abstract: We describe a simple and flexible method for implementing semi-definite programming relaxations for bounding the set of quantum correlations. The method relies on obtaining equality constraints from randomly sampled moment matrices and hence allow
Read full article →arXiv:2509.06086v3 Announce Type: replace Abstract: Quantum machine learning (QML) has the potential to achieve quantum advantage for specific tasks by combining quantum computation with classical machine learning (ML). In classical ML, a significant challenge is membership-privacy leakage, whereby
Read full article →arXiv:2510.08210v4 Announce Type: replace Abstract: Calculating the quantum weight enumerator polynomial (WEP) is a valuable tool for characterizing quantum error-correcting (QEC) codes, but it is computationally hard for large or complex codes. The Quantum LEGO (QL) framework provides a tensor net
Read full article →arXiv:2510.13671v3 Announce Type: replace Abstract: We study the collective emission of a disordered array of $N$ excited two-level atoms into a one-dimensional photonic waveguide. In the perfectly ordered case, where atoms are spaced by exact integer multiples of the wavelength, the system exhibit
Read full article →arXiv:2511.23470v5 Announce Type: replace Abstract: Accurate identification of Hamiltonian parameters is essential for modeling and controlling open quantum systems. In this work, we demonstrate that the multichannel Hankel alternative view of Koopman (mHAVOK) algorithm is a robust and reliable spe
Read full article →arXiv:2512.04649v2 Announce Type: replace Abstract: The hallmark of two-dimensional chiral topological phases is the existence of anomalous gapless modes at the spatial boundary. Yet, the manifestation of this edge anomaly within the bulk ground-state wavefunction itself remains only partially unde
Read full article →arXiv:2512.12342v2 Announce Type: replace Abstract: We investigate how quantum coherence can be distributed among the several off-diagonal elements of an arbitrary density matrix. An easily computable quantity that captures this variability notion is proposed and it is argued that it presents marke
Read full article →arXiv:2512.16400v2 Announce Type: replace Abstract: We propose a quantum circuit design for implementing coined quantum walks on complex networks. In complex networks, the coin and shift operators depend on the varying degrees of the nodes, which makes circuit construction more challenging than for
Read full article →arXiv:2601.05627v2 Announce Type: replace Abstract: We investigate thermalization and the quantum-classical correspondence in the collective Bose-Hubbard model, focusing on the four-site case. Our analysis of the classical phase-space structure and its excited-state quantum phase transitions leads
Read full article →arXiv:2601.07890v2 Announce Type: replace Abstract: This work provides a quantum-computing-first derivation of the Unitary Coupled Cluster ansatz, showing that its structure emerges naturally from fermionic algebra under unitary constraints. By explicitly connecting second quantization, Jordan-Wign
Read full article →arXiv:2601.10479v2 Announce Type: replace Abstract: Variational Quantum Algorithms (VQAs) are critically threatened by the Barren Plateau (BP) phenomenon. In this work, we introduce the H-EFT Variational Ansatz (H-EFT-VA), an architecture inspired by Effective Field Theory (EFT). By enforcing a hie
Read full article →arXiv:2601.20700v4 Announce Type: replace Abstract: In molecular aggregates, multiple delocalized exciton states interact with phonons, making the state-resolved spectroscopic monitoring of dynamics challenging. We propose a protocol that combines photon-entanglement-enhanced narrowband excitation
Read full article →arXiv:2602.01943v2 Announce Type: replace Abstract: Establishing quantitative adiabaticity criteria at finite temperature remains substantially less developed than in the pure-state setting, even though realistic quantum systems are never at absolute zero. Here, by combining a mixed-state quantum s
Read full article →arXiv:2603.05320v2 Announce Type: replace Abstract: Quantum error correction will likely be essential for building a large-scale quantum computer, but it comes with significant requirements at the level of classical control software. In particular, a quantum error-correcting code must be supplement
Read full article →arXiv:2603.23656v2 Announce Type: replace Abstract: We establish an exact information-geometric inequality that remains valid regardless of the underlying dynamics, encompassing both Markovian and non-Markovian evolutions within the mixed-state domain. This inequality can be viewed as an extension
Read full article →arXiv:2603.26826v4 Announce Type: replace Abstract: A generalized formulation of non-relativistic quantum mechanics is developed within multidimensional geometric (NG) frameworks characterized by a power-law dispersion relation \(E \propto |p|^{j}\), where \(j = N - 1\). Starting from the generaliz
Read full article →arXiv:2603.27397v2 Announce Type: replace Abstract: Both Superconducting and Ion-Trap are leading quantum architectures common in the current landscape of the quantum computing field, each with distinct characteristics and operational constraints. Understanding and measuring the underlying quantumn
Read full article →arXiv:2603.29439v3 Announce Type: replace Abstract: Superconducting quantum processor units (QPUs) are incapable of producing massive datasets for quantum error correction (QEC) because of hardware limitations. Thus, QEC decoders heavily depend on synthetic data from qubit error models. Classic dep
Read full article →arXiv:2604.04685v2 Announce Type: replace Abstract: We propose a data-adaptive probabilistic intensity remapping framework for structure-preserving transformation of grayscale images. The suggested method formulates intensity transformation as a continuous, data-driven remapping process, in contras
Read full article →arXiv:2604.12577v2 Announce Type: replace Abstract: Quantum key distribution protocols based on the quantum eraser phenomenon offer an operational advantage: automatic identification of matching and mismatching encoding choices through interference, eliminating basis reconciliation. However, binary
Read full article →arXiv:2604.19855v2 Announce Type: replace Abstract: Practical quantum advantage is expected to depend on fault-tolerant quantum computing, although the architectural overhead needed to support fault tolerance is still extremely high. Prior FTQC designs generally emphasize either fast logical-qubit
Read full article →arXiv:2506.21534v2 Announce Type: replace-cross Abstract: One of the most important physical effects in condensed matter physics is the Rashba spin-orbit coupling (RSOC), introduced in seminal works by Emmanuel Rashba. In this article, we discuss, describe, and review (providing critical perspectiv
Read full article →npj Quantum Information, Published online: 22 April 2026; doi:10.1038/s41534-026-01241-ySurface-code hardware Hamiltonian
Read full article →npj Quantum Information, Published online: 21 April 2026; doi:10.1038/s41534-026-01247-6Distributed quantum inner product estimation with structured random circuits
Read full article →npj Quantum Information, Published online: 21 April 2026; doi:10.1038/s41534-026-01221-2Two-qubit gates using on-demand single-photons from ordered shape and size controlled large-volume superradiant quantum dots
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01228-9Collective purification of interacting quantum networks beyond symmetry constraints
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01229-8Quantum reservoir computing induced by controllable damping
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01236-9Time-series forecasting with multiphoton quantum states and integrated photonics
Read full article →npj Quantum Information, Published online: 17 April 2026; doi:10.1038/s41534-026-01246-7Beyond boson sampling: higher spin sampling as a practical path to quantum supremacy
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