Quantum Scrambling: Chemical Reactions Rivaling Black Holes
Research from Rice University and the University of Illinois Urbana-Champaign has shown that molecules can scramble quantum information as effectively as black holes, with implications…
Research from Rice University and the University of Illinois Urbana-Champaign has shown that molecules can scramble quantum information as effectively as black holes, with implications…
Researchers at the National University of Singapore (NUS) have developed an innovative method for creating carbon-based quantum materials atom by atom. This method combines the…
Utilizing generative artificial intelligence, chemists from MIT developed a model that can predict the structures formed when a chemical reaction reaches its point of no…
A new model from PPPL researchers explains the production of black silicon using fluorine gas, enhancing its application in solar cells and marking a new…
The findings can be used to design molecules with custom quantum coherence properties, laying the chemical foundation for emerging quantum technologies. In quantum mechanics, particles…
The remotely operated facility aboard the International Space Station has created another tool that researchers can use to probe the fundamental nature of the world…
Using data-driven methodologies, researchers have identified a “freedom of design” in molecular structures due to weak correlations in quantum-mechanical properties. This discovery, coupled with machine…
Researchers have experimentally verified a longstanding theory that posited that electron density is unevenly distributed in aromatic molecules. Researchers from the IOCB Prague, the Institute…
A quantum computer slowed simulated molecular quantum effects by a billion times, allowing researchers to directly measure them for the first time. Researchers at Duke…
What happens in femtoseconds in nature can now be observed in milliseconds in the lab. Scientists at the University of Sydney have achieved a groundbreaking…
A cutting-edge experiment has unveiled the quantum dynamics underlying one of nature’s most essential processes. Using a complex cast of metal-studded pigments, proteins, enzymes, and…
Osaka City University creates a general quantum algorithm, executable on quantum computers, which calculates molecular energy differences without considering relevant total energies. As newly reported…
Scientists at Freie Universität Berlin develop a deep learning method to solve a fundamental problem in quantum chemistry. A team of scientists at Freie Universität…
Researchers at the Department of Energy’s Oak Ridge National Laboratory have developed a quantum chemistry simulation benchmark to evaluate the performance of quantum devices and…
The importance of chemistry in next-generation computing and communication has been documented for the first time by a team of Northwestern University academics. They found…
A group of Michigan State University researchers specializing in quantum calculations has proposed a radically new computational approach to solving the complex many-particle Schrödinger equation,…
Using magneto-optical trapping, Yale physicists cooled molecules of strontium monofluoride to 2.5 thousandths of a degree above absolute zero, the lowest temperature yet achieved by…