Optical computing has emerged as a powerful approach for high-speed and energy-efficient information processing. Diffractive ...

A longstanding goal in physics has been to link general relativity with quantum theory and so unify the forces of nature. Theories of quantum gravity, however, are plagued by the weak theoretical ...

Newly developed Bayesian inference framework (BIF) efficiently models and controls the optical power evolutions in fiber-optic communication systems. Leveraging Bayesian theory, the BIF selects the ...

Polarized light is one of the most powerful tools scientists have for peering inside matter, yet the way it twists, scatters and transforms inside real-world materials has long been treated as a black ...

Optical metrology is the science and technology of making measurements with use of light as standards or information carriers. Although optical metrology is a rapidly growing area, it is not a new ...

An open platform combines automated chemical synthesis, optical screening and AI modeling to control nanocrystal growth and ...

In the leading high-volume manufacturing (HVM) process flows, materials-enabled scaling has increased inline applications for compositional metrology. A previous blog discussed how Fourier transform ...

Through optical modeling of the transmission or reflectance spectra, information about the electronic structure and chemical composition may be obtained, which can be used for process control and ...