Scientists have observed a unique particle that moves easily one way, yet resists at 90 degrees. These semi-Dirac fermions ...

Previous studies observed topological transformations by means ... A Kerr nonlinear oscillator can be used as a qubit in quantum computing, as it can generate two simultaneous opposite states.

Our recent research interests lie at this interface, with particular focus on the phenomena of symmetry-protected topological orders and their relation to quantum computation. We are excited by the ...

In a groundbreaking experiment, physicists have successfully converted a quantum processor into a state of matter called a time crystal. This achievement could potentially make quantum computing more ...

These inherent properties of TIs, and the interplay between magnetism and proximity to superconductors, make topological insulators a prime platform for the realization of solid-state quantum ...

As described in a new study from Chinese and U.S. scientists, a team successfully embedded the inherent stability of a topological ... for the future of quantum computing. Quantum computing ...

Topological insulators (TI ... Tongcang Li (Purdue University) Decomposition-based approaches to enable practical quantum computing for optimization Motivation: Optimization applications appear in ...

Topological materials hold promise for a range of applications, including spintronics, quantum computing, and advanced electronics. Their unique electronic properties can lead to the development of ...

Google’s new chip Willow made a big statement that quantum computing is coming to the real world. That could also mean a ...

Topological superconductivity is the holy grail for implementing fault-tolerant quantum computation. Here, the authors show that for a superconducting monolayer T d −MoTe 2 characterized by the ...