Researchers enhanced the spectral responsivity of photodetectors by integrating CdSe/ZnS quantum dots with MEH-PPV polymer.
By Samudrapom Dam
26 Aug 2024
The world's largest and most powerful particle accelerator may be producing the world's tiniest droplets of liquid, right under scientists' noses.
Researchers have discovered a new antimatter hypernucleus, known as antihyperhydrogen-4, establishing it as the heaviest antimatter hypernucleus observed in experiments to date.
The National Institute of Standards and Technology (NIST) has finalized three post-quantum encryption (PQE) standards to protect against quantum computer-based cyberattacks.
By Samudrapom Dam
22 Aug 2024
Researchers developed QPSOFL, a novel clustering and routing protocol combining quantum particle swarm optimization (QPSO) with fuzzy logic, to significantly extend network lifetime and improve energy efficiency in wireless sensor networks (WSNs).
By Samudrapom Dam
21 Aug 2024
Researchers from Georgia State University's Center for High Angular Resolution Astronomy (CHARA) Array have discovered new information regarding the dimensions and appearance of the North Star, often known as Polaris.
After attempting to explain the X-ray radiation coming from the environs of the black hole since the 1970s, researchers from the University of Helsinki have now succeeded in their endeavor.
Researchers used computational simulations, including QM/MM calculations, to uncover the enantioselective metabolism of chiral triazole fungicides by human CYP450 enzymes.
By Samudrapom Dam
20 Aug 2024
Researchers have achieved a world-first by developing a quantum microprocessor chip designed for simulating molecular spectroscopy of large, complex molecules.
Recent galaxy observations have challenged the long-held belief that dark matter influences star formation.
A recent study in Results in Physics explores the role of electronic coupling in designing fault-tolerant quantum cellular automata (QCA) wires. Researchers analyzed the impact of missing cell defects on QCA wire performance, revealing that electronic coupling critically affects both fault tolerance and thermal robustness.
By Samudrapom Dam
19 Aug 2024
Our nation's security depends on the effective detection of nuclear materials at our borders and beyond. To address this challenge, Rensselaer Polytechnic Institute (RPI) physicist Moussa N'Gom, Ph.D., is leading research aimed at developing a quantum sensing probe to detect and characterize special nuclear materials precisely and without contact.
In a recent study published in the journal Science, researchers from Stanford University have now discovered that electron pairing, a crucial property of a superconductor, happens in an unexpected material an antiferromagnetic insulator, and at temperatures far higher than previously believed.
Scientists from the University of Nottingham, working with an international team, have exposed the strictest limitations yet on the existence of magnetic monopoles in a study reported in Physical Review Letters, consequently stretching the boundaries of knowledge about these elusive particles.
As part of the Q-NEXT collaboration, Nitin Samarth is helping grow the capabilities of the Argonne Quantum Foundry. He’s also building a library of atom-scale materials for quantum technologies — and he’s sharing it with everyone.