Researchers have recently identified 'dark electrons'—electrons undetectable using traditional spectroscopy—within solid materials ... reshaping how we view quantum mechanics.

The Solid State, Photonic, and Quantum Technologies research shares the main research interests of design, analysis, and proof-of-concept development of solid-state and photonic devices and systems.

Quantum computers have the potential of outperforming classical computers on some optimization and computational tasks. Compared to classical systems, however, quantum systems are more prone to errors ...

There are two different approaches to physically implementing quantum walks: Analog physical simulation primarily uses solid-state ... problems and various network applications.

Phonons, the quantum mechanical vibrations of atoms in solids, are often sources of noise in solid-state quantum systems, including quantum technologies, which can lead to decoherence and thus ...

Controlling qubit–phonon interactions is crucial for solid-state quantum devices. Two recent studies demonstrate that phononic bandgap engineering can alter these interactions, leading to ...

The core innovation of this technology lies in the design and implementation of the Quantum Convolutional Neural Network (QCNN ... method based on quantum state encoding, which maps high ...