Latest Articles for Scientific Discovery

Investigating axions may unlock secrets of dark matter and particle physics.

New findings shed light on high-energy electron production in laser interactions.

Exploring the potential of lepton flavor violation signals through new colliders.

Recent studies reveal unexpected behaviors in unstable neon isotopes.

Study reveals nuclear spin's influence on transition polarizability and atomic measurements.

Astronomers gain valuable data from the recent Type II supernova in Ursa Major.

Research uncovers unique droplet-like states in qubit systems, advancing quantum technology understanding.

Research reveals unexpected patterns in particle collisions involving polarized protons.

Researchers search for tiny charged particles that may hold dark matter secrets.

Researchers investigate rare Higgs boson decays for insights into particle physics.

Research explores lutetium hydride's potential for superconductivity at higher pressures.

Recent findings suggest a possible light charged Higgs boson in particle decays.

Scientists investigate a newly discovered particle's structure and interactions.

Researchers investigate CP violation in Higgs interactions using data from the International Linear Collider.

Investigating isomer states in odd-even isotopes of Md and Rg nuclei.

Scientists use particle collisions to measure the Higgs boson mass accurately.

A look into new findings about Higgs bosons and dark matter.

FRBs may help resolve the disagreement in measuring the universe's expansion rate.

Exploring significant findings and future opportunities in neutron physics.

A look into the MiniBooNE anomaly and its implications for neutrino physics.

Researchers search for dark photons, potential dark matter, using advanced detection techniques.

A look at neutrino oscillation and the challenges of parameter degeneracy.

Recent findings reveal hydrogen's impact on early galaxy development.

CMS experiment reveals potential signal indicating a new boson at 95.4 GeV.

Research on all-charm tetraquarks reveals mysteries of fundamental particles.

Exploring the journey from skepticism to acceptance in quantum research.

Researching axionlike particles reveals new insights into dark matter.

Scientists investigate surprising findings suggesting potential new physics beyond the Standard Model.

Scientists use quasars to gather insights about dark matter's structure and properties.

Exploring the complexities and significance of MUBs in quantum mechanics.

A recent weight shift in the W boson challenges existing particle physics models.

Researchers achieve consistent measurements for scintillation yield in xenon gas, aiding particle detection.

Discover how proteins change shapes to perform vital functions in living organisms.

The PICOLON experiment aims to detect dark matter using high-purity crystals.

Research advances understanding of particle decay and its role in the universe.

A new model improves symbolic regression through adaptive learning techniques.

Investigating neutrinos to understand their interactions and potential new physics.

Exploring quantum annealing's role in approximate optimization and its advantages over classical methods.

This study explores how deep learning can learn integrals and basic integration rules.

Two new brown dwarfs found, helping to classify celestial objects.