Latest Articles for Observables

A new method for simpler and clearer UI design.

Explore the fascinating interactions and behaviors in particle collisions.

A look into how spinning objects behave under different forces.

A look into neuron networks and their impact on brain functionality.

Improvements in calibrating top quark mass using advanced Monte Carlo event generators.

A deep look into the principles governing random processes and their implications.

A look into the behavior of Be stars and their unique gas discs.

Examining how shockwaves affect black hole complexity and measurements in expanding space.

Researchers propose new methods for managing unpredictable systems using data-driven techniques.

Exploring the significance of coherent states and their role in quantum systems.

New method generates unseen quantum states through merging classical and quantum techniques.

Quantum computing shows promise in machine learning through qGANs, despite training challenges.

Exploring active matter and its role in movement and energy interactions.

Analyzing interactions of an exotic neutral vector boson in particle physics.

Upcoming experiments may reveal new insights into lepton flavor-changing interactions.

Learn about measuring multiple qubits and their implications in quantum systems.

A new approach improves control systems analysis using set-valued analysis.

Exploring the impact of noise on Quantum Neural Networks training and effective strategies.

New training method enhances stability and accuracy in molecular dynamics simulations.

Explore how OTOC sheds light on chaotic behavior in quantum systems.

Introducing a fresh perspective on momentum for particles in finite spaces.

A study of spins in random networks and their interactions.

Researchers establish a stronger speed limit for changes in quantum observables.

An overview of neutrino interactions and the significance of transverse kinematic imbalance.

Exploring the connections between Chern-Simons theories and quantum gravity.

Investigating gravity's role in the evolving de Sitter space.

A look into EDMD's role in understanding chaotic systems like interval maps.

Exploring how quantum histories change our view of particle behavior and measurement.

A look into how polyominoes interact and develop through various processes.

A look into how quantum gravity shapes our grasp of the universe.

A method improves accuracy in estimating ground state energies using classical shadow data.

A method to predict internet service degradation using early network metrics.

Learn how the Higgs boson affects our understanding of mass and fundamental particles.

Scientists study how disorder affects thermalization in trapped bosonic atoms.

This study reviews weak decays and their implications for new physics.

Research refines model connections in nuclear collisions for better predictions.

A fresh approach to understanding observables in classical field theory using Poisson algebra bundles.

Researchers analyze how observables change during high energy particle collisions.

Discover how Koopman operators improve robot learning and adaptability.

Exploring pseudo-Hermitian systems and their impact on particle physics and cosmology.