Latest Articles for Scientific Discovery

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.

A new tool enhances methods for finding exoplanets beyond our solar system.

This research dives into the fragmentation processes of small jets in particle collisions.

The Big Ring reveals new insights into galaxy distribution.

Researching axions as a potential key to understanding dark matter.

Explore the discovery of helium and its significance in atomic theory.

A study examines diboson polarization based on energy levels using ATLAS detector data.

A new approach to improve black hole imaging through satellite technology.

This study investigates light particles that might decay into jets using ATLAS data.

A study investigates potential signs of higgsinos using the ATLAS detector.

Learn about the Higgs boson's role in giving mass to particles.

Explore the mysterious properties and implications of neutrinos in particle physics.

A look into the unique properties of double-charmed tetraquarks and their implications.

Scientists investigate lighter and heavier Higgs bosons, revealing potential new physics.

Investigating charged Higgs bosons to expand our knowledge of particle physics.

CUPID-Mo aims to find signs of new physics through rare decay events.

Recent measurements improve our knowledge of charmonium decays and particle interactions.

Researchers use advanced imaging techniques to track barium ions in xenon gas.

New findings from JWST challenge current theories on galaxy formation.

Scientists investigate heavy scalar particles decaying into Higgs bosons and leptons.

Study reveals distinct protein clump patterns in Parkinson's and MSA.

Scientists investigate a high-energy cosmic ray possibly linked to dark matter.

Research focuses on charmonium's spin-singlet state and its decay behaviors.

Researchers reveal a new process involving tau leptons through photon collisions.

Astronomers discover HD 21520 b, a warm sub-Neptune orbiting a sun-like star.

Recent experiments hint at a possible new particle around 95 GeV at the LHC.

Efficient control of quantum states through novel techniques impacts technology.

Researchers improve barium atom imaging, aiding neutrino decay studies.

Recent findings challenge established physics theories about muons and W bosons.

Investigating new particles that may change our understanding of the universe.

JADE data reveals possible new physics beyond the standard model.

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

Research on gravitational waves from inflation aims to deepen our understanding of cosmic origins.

A new catalog provides key information about 400,000 unique stars in our galaxy.

Taiji and LISA aim to advance our understanding of gravitational waves from the cosmos.