The orbital angular momentum operator is defined and its commutation relations with the position and momentum operators, and generally with vector operators, are obtained; the relationship between the ...

As a result, the angular momentum of the satellite about the center of the Earth ... Kepler was able to arrive at this second law without the benefit of Newtonian mechanics and differential calculus.

In the past few years, the interactions between spin angular momentum and orbital angular momentum in tightly focused ... and high-dimensional quantum information. Furthermore, the intrinsic coupling ...

This phenomenon, which includes particle interference, was thought to be exclusive to quantum systems, yet it emerged from a classical light source. Using advanced techniques such as ...

According to the researchers, the findings could have many future applications in quantum communication, metrology, and ...

It's basic research that lays the foundation for future technologies in quantum information and ... forward in a circular motion, called orbital angular momentum, unlike the more common ...

Code and notes to develop machine recognition of modes that represent the final step of a quantum random walk in the space of orbital angular momentum of LASER light, in which the labelling process is ...

From Classical to Quantum Forms,” IEEE Journal on Multiscale and Multiphysics Computational Techniques, vol. 9, pp. 113-117, Mar. 2024. Ling-Jun Yang, Sheng Sun, and Wei E.I. Sha, “Manipulation of ...

The quantum Hall effect ... but also its spin and orbital moment when processing information. Spin is the intrinsic angular momentum of an electron, and the orbital moment arises from the motion ...

implications of conservation of angular momentum and parity for two-body decays; addition of three angular momenta. Get access to the full version of this content by using one of the access options ...