- Superconducting Qubits Achieve Programmable Heisenberg Simulation with Five-Qubit Chains
- Graph Isomorphism Advances with Classical Algorithm Inspired by Noisy Intermediate-Scale Quantum Systems
- Anomalous (3+1)d Fermionic TQFTs Enable New Insights into Global Anomalies and Symmetry
- Quantum Chaos Achieves Rapid Randomization, Enabling Advances in Statistical Mechanics
- Quark Generalized Parton Distributions Achieves One-Loop Accuracy in Chromodynamics Calculations
- Quantum Simulations Enabled by Package Generating Liouville Superoperators for Complex Atoms
- Interference-based Routing Advances Quantum Machine Learning, Scaling Models Beyond Classical Limits
- Advances Quantum Computing with Tensor-Plus Calculus and Universal Semiring Diagram Language
- Nonlocality Resource Demonstrates EPR Steering, Powering Teleportation and Quantum Key Distribution
- Advances in Quantum Computing Enable Universality Beyond Clifford Circuits with Dimension 3
- Quantum Computing Achieves Spectral Gap Estimation Using 20 Qubits and Adiabatic Preparation
- Active Space Selection Benchmarks Accelerate Quantum Drug Discovery with VQE for Lovastatin and More
- Quantum Computing Achieves 70.72% Efficiency Gain with Novel Circuit Packing and Scheduling
- Flaky Test Detection Improves Quantum Software, Identifying 0.4% Variability in Releases
- Grover’s Quantum Search Algorithm Advances Segment Display Problem Solving Using Binary Circuits
- Wolfram Model Systems Enable Quantum Gate Construction Via Multiway Rewriting
- Variational Product States Achieve Superior Optimization on 50000-Variable Problems
- Ultralong-range Rydberg Molecules of Ytterbium Demonstrate Novel Interactions and Potential Applications
- Quantum Circuit Algorithm Achieves Topological Invariant Calculation for Many-Body Magnets
- Trigonometric Continuous-Variable Gates Enable Efficient Hybrid Qubit-Qumode Simulations
- K3 Sigma Models and Conway SCFT Advance Understanding of 2504.18619 Defect Lines
- Kagome Magnets Achieve Multiple Topological Phases Via Dzyaloshinskii-Moriya and Pseudo-Dipolar Interactions
- Chemistry Advances with QuMorpheus, Enabling Accurate Modeling of Challenging Conical Intersections
- Variational Quantum Eigensolver Enables Practical Quantum Computing on NISQ Devices
- Quantum Computing Enables Cyber Threat Detection with Enhanced 4-Qubit Performance
- Superconducting Quantum Computers Demonstrate Multifractal Behavior Enabling Noise Mitigation Strategies
- EU Quantum Flagship Benchmarks Achieve Scalable Quantum Computing Performance Metrics
- Neural Networks Extract Anyon Statistics, Demonstrating Order in 1/3 Fractional Quantum Hall States
- QuEra Launches 260-Qubit Gemini Quantum Computer for Logic Experiments
- Gapless Flat Bands Enable Fractional Quantization with Divergent Quantum Geometry
- Quantum Computing Advances Show GKP Fidelity Is Not Guaranteed by Stabilizers
- Universal Blind Quantum Computation Achieves Reduced Communication for NISQ-Era Applications
- Quantum Error Mitigation Achieves Five Orders of Magnitude Improvement with Decoder Confidence
- Weak Measurements Achieve Optimal Qubit Readout, Limiting Information Loss in Quantum Systems
- Exchange-correlation Functional Enables Accurate Many-Electron System Modeling under Strong Light-Matter Coupling
- Reset Operations in Cloud Quantum Computers Enable Circuits to Run for Free
- Cloud Quantum Computing Gains Forensic Tool, Pinpointing Hardware Noise and Resource Allocation
- Taxi Destination Prediction Achieves Improved Accuracy with Hybrid Quantum-Classical Networks
- Wormhole Phase Transition Ensured by Random Matrix Product States in Gravitationally Prepared States
- Turbulent Flows Simulated with 99.99% Accuracy Using Matrix Product States
- Noise-resilient Quantum Federated Learning Enables Low-Latency ADAS Training on NISQ
- Quantum Implicit Neural Representations Achieve High-Fidelity 3D Scene Reconstruction and Novel Views
- Chaplygin Gas and Potential Model Advances Understanding of Early Universe Resonances
- Quantum NIZK Proofs Advance Certified-Everlasting Zero-Knowledge with Statistical Indistinguishability
- Quantum Chemistry Achieves 0.94 Accuracy, Paving Way for Quantum Advantage
- Ising on the Donut Maps Toric Codes, Enabling Analysis of Quantum Error Correction Performance
- Quantum Computers Measure Hall Viscosity of Fractional Quantum Hall State with Hilbert-Space Truncation
- Statistical Study Extends Analysis of Google 2019 Quantum Supremacy Experiment and Digital Error Model
- Topology-guided Quantum GANs Generate Constrained K4 Graphs, Enhancing Performance with Geometric Priors
- Noisy Quantum Learning Theory Demonstrates Superpolynomial Gap Between NISQ and Fault-Tolerant Devices
- Multiple-time Quantum Imaginary Time Evolution Enhances Ground State Fidelity and Reduces Measurement Overhead for Complex Hamiltonians
- Qubit Decoherence in Two-Photon Resonators Linked to Wigner Function Via Real-Time Instantons
- Quantum Algorithm Estimates Ollivier-Ricci Curvature with Exponential Speedup on Graph Inputs
- Frequency-dependent Polarization Propagator Calculation Advances Quantum Dot Studies of Absorption and Excitonic Effects
- True Random Number Generators on IQM Spark Enable Enhanced Cryptography and Simulations
- Saq: Stabilizer-Aware Quantum Error Correction Decoder Achieves 18.9% Accuracy with Linear Scalability Via Transformer-based Learning
- Regular Black Hole Sound Analysis Reveals Moderate Spectral Dependence on Dehnen Halo Parameter
- Difference-of-convex Optimization Speeds Goemans-Williamson for Quadratic Unconstrained Binary Optimization Problems
- Swift sGRB Analysis of 39 Events Finds No Evidence for Exploding Primordial Black Holes’ Backwards Gamma-Ray Bursts
- Quantum Bumblebee Black Hole Radiative Properties and Particle Production for Spin-0, 1/2, 1, and 2 Fields
