At the Programmable Quantum Materials Energy Frontiers Research Center, researchers have been working to add an element of control to quantum physics.
The researchers will assess how co-occurring droughts and deluges will impact carbon cycling across the vast grasslands of the continental U.S.
In early 2022, Michigan State University will open the doors to the facility and welcome scientists from around the globe to study rare isotopes.
The researchers paired MoTe2 with WSe2, twisted them at a 180-degree angle, applied voltage, and observed a quantum anomalous Hall effect.
The team demonstrated low-error two-qubit operations using Superconducting Single Flux Quantum pulses, voltage signals generated inside the fridge.
A team led by Columbia physicist Abhay Pasupathy sees stripes in samples of twisted double bilayer graphene.
MIT physicists have detected a hybrid particle in an unusual, two-dimensional magnetic material.
La Jolla Institute researchers shed light on the role of TET enzymes in genomic stability and cancers.
A new study shows ‘magic-angle’ graphene is capable of producing both superconductivity & ferromagnetism, which could be useful in quantum computing.
The junctures at the facet edges of 3D semiconductor particles have 2D properties, which can be leveraged for photoelectrochemical processes.