In the quantum HO-based setup, a higher-energy HO acts as the charger and a lower-energy one as the battery. When the two are ...

This repository contains Python codes implementing Physics-Informed Neural Networks (PINNs) using PyTorch to solve the Schrödinger equation for one-dimensional harmonic oscillator: ...

These codes were originally written as part of a series of lectures presented at the 2018 National Magnet Lab Winter Theory School and are intended to be pedagogical ...

Newton's Laws are probably the most widely known, but alternatives of particular interest in making the transition from classical to quantum formulations are Lagrange's equations and Hamilton's ...

Synchronization phenomena continue to inform and surprise. In classical and quantum physics, the harmonic oscillator is a paradigmatic model both because it describes periodic behaviour found in a ...

The basic idea of squeezing can be understood by considering the quantum harmonic oscillator, familiar from undergraduate quantum mechanics. Squeezing is best visualized by means of the Wigner ...

The research team applied the Page and Wootters mechanism, a theory proposed in 1983, to two entangled quantum states : ・A vibrating harmonic oscillator ・A set of tiny magnets acting as a ...

These findings establish high harmonic generation as an ideal platform for producing entangled and squeezed photonic systems at room temperature. "Both features are key resources for many quantum ...