While 20th-century technology was defined by the growth of electronics, the 21st century belongs to photonics. LEDs will light households powered by photovoltaic panels and filled with displays and ...

Mad City Labs also offers standalone micropositioning products, including optical microscope stages, compact positioners for photonics and the Mad-Deck XYZ stage platform, all of which employ ...

Electro-optic frequency combs, introduced in 1993, showed promise in generating optical combs through cascaded ... in thin-film electro-optic integrated photonic circuits have renewed interest ...

Artificial intelligence (AI) and machine learning (ML) continue to push the limits of conventional semiconductor ...

This has led to a host of nanowire photonic devices including photodetectors, chemical and gas sensors, waveguides, LEDs, microcavity lasers, solar cells and nonlinear optical converters.

Similarly, in radiofrequency photonics, where micro- or millimetre-wave signals are transported in the optical domain, tunable delays can be used to synchronize or steer signals, such as in phased ...

For that reason, the direct epitaxial growth of high-quality III-V optical gain materials selectively on large-size silicon photonics wafers remains a highly sought-after objective. The large ...

Fiberoptic cables, which underpin most modern networks, are a type of photonic technology. They use visible light to transmit ...

In photonic chips, information can be encoded in optical properties like polarization, phase, magnitude, frequency, and wavevector. While this would be extremely fast and energy-efficient ...

Photonic Crystal Fibers (PCFs) represent one of the most successful and impactful applications of photonic crystals. These specialized optical fibers incorporate a microstructured arrangement of ...