Scientists Find a Common Thread Linking Subatomic Color Glass Condensate and Massive Black Holes
Physicists show that black holes and dense state of gluons—the “glue” particles that hold nuclear matter together—share common features.
Physicists show that black holes and dense state of gluons—the “glue” particles that hold nuclear matter together—share common features.
Experiment shows that even large, old, and presumably stable stores of soil carbon are vulnerable to warming and could amplify climate change.
In conflict with a long-held explanation of cadmium isotope motion, a new experiment found that cadmium-106 may rotate instead of vibrate.
Interfaces made by stacking certain complex oxide materials can tune the quantum interactions between electrons, yielding exotic spin textures.
Researchers detect an exotic electron phase called Wigner crystal in tungsten diselenide/tungsten disulfide moiré superlattices.
Nuclear physicists test whether next generation artificial intelligence and machine learning tools can process experimental data in real time.
New results could significantly improve resonance ionization mass spectrometry ultra-trace analysis of plutonium isotopes.
Particles choose partners for short-range correlations differently when farther apart in light nuclei versus when packed closer together in heavy nuclei.
As machine learning tools gain momentum, a review of machine learning projects reveals these tools are already in use throughout nuclear physics.
Roughening of fusion reactor wall surfaces over time may significantly reduce erosion rate predictions
Researchers use CRISPR to engineer a bacteriophage to deliver DNA into targeted members of microbial communities for precise genome editing.
Scientists analyzed detonation formation in hydrogen/methane air mixtures, quantifying the effect of non-thermal reactions on the mechanism of detonation.