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InnovationScience

MIT Physicists Develop Molecular Method to Probe Atomic Nuclei Using Electrons as Messengers

Physicists at MIT have pioneered a molecular technique using electrons as nuclear probes, eliminating the need for massive particle colliders. Their breakthrough could help explain why the universe contains more matter than antimatter, addressing one of cosmology’s fundamental questions.

Revolutionary Tabletop Nuclear Probing Method

Physicists at MIT have developed a groundbreaking molecular approach to investigate atomic nuclei, using the atom’s own electrons as messengers, according to reports published in the journal Science. The new technique provides a tabletop alternative to traditional kilometer-long particle accelerators, potentially revolutionizing how scientists study nuclear structure.

by Gabriel Novak
ComputingResearchScience

Breakthrough in Neural Quantum Simulations Slashes Computational Costs for Materials Research

Scientists have developed a revolutionary transferable neural wavefunction approach that dramatically reduces computational requirements for simulating quantum materials. The new method reportedly achieves superior accuracy while using just a fraction of the computational resources previously needed, potentially accelerating materials discovery across multiple industries.

Revolutionary Approach to Quantum Simulations

Researchers have developed a groundbreaking transferable neural wavefunction method that reportedly achieves unprecedented computational efficiency in simulating quantum materials, according to recent findings published in Nature Computational Science. The new approach, based on deep-learning variational Monte Carlo (DL-VMC) techniques, demonstrates the ability to produce more accurate results while requiring only a fraction of the computational resources of previous methods.

by Gabriel Novak