Latest Articles for Experimental Science

Quantum metrology improves measurement accuracy using quantum systems near critical points.

Examining unique behaviors in quantum systems driven by periodic changes.

A deep dive into the role of light scalar fields in physics experiments.

Recent findings on NT plasmas could shape the future of fusion energy systems.

New methods improve calculations of tunneling splittings in complex molecules.

Research on neutrino oscillation and Lorentz invariance violation sheds light on fundamental physics.

Investigating heavy neutrinos could change our understanding of the universe.

Scientists study nanoparticles using lasers to gain insights into quantum behavior.

Conflicting measurements reveal challenges in our understanding of proton size.

Exploring the complex interactions of particles using advanced femtoscopy techniques.

Study shows Rydberg atoms mimic predator-prey interactions using laser technology.

YbOH helps scientists investigate the electron electric dipole moment for new physics insights.

This study examines how pulsed and CW light react to gravity in an optical cavity.

Research on Heavy Neutral Leptons may reveal new insights into particle interactions.

New methods improve precision in particle collision predictions.

New experiments shed light on particle decays and interactions.

Recent findings reveal complex behaviors of protons in heavy-ion collisions.

Researchers enhance entanglement stability in large systems through optimal feedback control methods.

Scientists investigate vector-like top quarks to address fundamental mysteries of the universe.

Investigating right-handed neutrinos could change our understanding of particle physics.

This article discusses a new approach to producing polarized electron beams using a double-layer target.

A new technique generates squeezed light using excitons and phonons at room temperature.

Research sheds light on matter behavior in extreme conditions through net-charge fluctuations.

Scientists are pushing the boundaries of quantum physics with levitated masses and superposition states.

A new atomic oven design optimizes efficiency for quantum technology applications.

Study reveals how electric fields slow superradiant light emission in ultracold Rydberg atoms.

Exploring vacuum decay and its implications for the universe.

Research reveals how gravity affects atomic clocks and quantum systems.

Discover the techniques improving our ability to detect gravitational waves.

Examining turbulence behavior in Bose-Einstein Condensates and its implications.

Rydberg atoms show promise for advancements in quantum information science and technology.

Research focuses on scalar bosons and their potential role in understanding new forces.

New method improves fluid flow modeling with limited and noisy measurements.

Examining the role of photons in particle collisions at high energies.

A new approach to testing the connections between gravity and quantum mechanics.

Researchers investigate elusive particles that may reveal new physics through neutrino interactions.

Research reveals a unique shock in laser-created plasmas, offering insight into space phenomena.

Exploring how defects in optical lattices affect quantum correlations.

Examining how electroweak phase transitions influence gravitational waves and the universe's evolution.

This study investigates how photons excite atoms and the implications of group delay.