Juno Sparx makes science funny without making it wrong, which turns out to be the harder problem.
Soft, jiggling atoms can be the key to dramatically better cooling by disrupting heat flow.
A single impurity near a boundary summons detectable quantum interference patterns from particle-hole pairs in superconductors.
The universe can learn and adapt through simple mathematical interactions, without needing a brain.
Carbon layers can flip their magnetic orientation and become "handed" superconductors.
AI now deciphers the universe's mathematical beauty, revealing governing equations previously beyond its grasp.
Everyday chemicals disrupt brain function by broadly interfering with synaptic plasticity, the basis of learning and memory.
AI can now discern underlying mathematical rules in complex systems, moving beyond mere pattern recognition.
Everyday chemicals interfere with brain rewiring, impacting how we learn and remember.
Robots now grasp metal's subtle springiness, refining manufacturing beyond predictable equations.
New research reveals that traditional, simpler computing methods can outperform advanced multi-state machines on complex problems.
New research uses targeted heating to make magnetic data storage significantly denser and more efficient.
Researchers developed a novel sensor that bypasses the electrical noise in bodily fluids to detect disease markers.