The Continuum model is the standard theoretical framework for describing Moiré systems with small ($\theta < 5^\circ$) twist angle. Instead of simulating millions of atoms such as in a hubbard ...

Quantum computing is no longer a theoretical curiosity. It represents a paradigm shift in how information is processed, secured, and transmitted. As research advances from the noisy intermediate-scale ...

Creative Commons (CC): This is a Creative Commons license. Attribution (BY): Credit must be given to the creator. Programming is a key transferable skill within the chemical sciences with applications ...

The Earth’s deep interior is inaccessible to humans and much of our knowledge of its composition and temperature is inferred from matching seismic observations with the elastic wave velocities of ...

This important study uncovers the mechanism of inhibition of a membrane pyrophosphatase by non-hydrolyzable phosphonate substrate analogs. Convincing crystallography, EPR spectroscopy, and functional ...

This important study uses state-of-the-art, multi-region two-photon calcium imaging to characterize the statistics of functional connectivity between visual cortical neurons. Although alternative ...

Quantum electrodynamics (QED) is a subset of quantum field theory 1 that describes the interaction between matter and the electromagnetic field. This theory treats light as particles called photons.

Together with the promise of supporting high data-rate massive connectivity, THz wireless systems and networks come with several challenges. In particular, these challenges can be summarized as: • Due ...

Ionoacoustics relies on the detection of thermoacoustic waves generated when charged particles from pulsed ion beams stop in matter 1. The deceleration of ions penetrating a medium results in energy ...

Multi-photon absorption properties, particularly two-photon absorption (2PA), of fluorescent proteins (FPs) have made them attractive tools in deep-tissue clinical imaging. Although the diversity of ...