Orbital Angular Momentum (OAM) in optical communications is an exciting area of research that explores how the unique properties of light can be harnessed to enhance data transmission capabilities.

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

Furthermore, the total (spin and orbital) angular momentum Jtot of the stellar planetary system is computed, and a power law of the form J tot = 10 (43.11±6.82) ( M p M J ) (0.94±0.14) is obtained. In ...

In this study, a qudit was implemented by the orbital angular momentum state of a single-photon, and dimensional expansion was possible by adjusting the phase of a photon through holographic images.

Gravitational wave observations have revolutionized our understanding of black holes, revealing crucial details about their ...

By using a sophisticated technique involving photon-number-resolving detection and orbital angular momentum (OAM) measurements, the researchers projected a classical pseudothermal light field into ...