Photonics On Crystals (POC) excels in delivering high-quality magneto-optic devices tailored for diverse applications. Our extensive expertise in precision engineering, advanced material processing, and device customization ensures optimal performance. POC’s state-of-the-art production facilities are equipped to fabricate a wide range of magneto-optic components, ensuring low forward insertion loss, high reverse isolation, and exceptional reliability.
Magneto-optic devices operate on the principles of the Faraday Effect, which involves the interaction of light waves with magnetic fields in a medium. When light propagates through a magneto-optic material, the plane of polarization rotates linearly, proportionally to the applied magnetic flux density. This rotation is mathematically expressed as:
β = V × B × d
The Faraday Effect is exploited in optical systems to mitigate return light and its adverse effects. Magneto-optic devices are indispensable in applications requiring high isolation, minimal return loss, and stable performance, ensuring superior operation in laser systems.
Magneto-optic devices serve crucial roles across industries, including telecommunications, defense, medical imaging, and laser manufacturing. Applications include:
POC stands at the forefront of magneto-optic device innovation, backed by a dedicated team of researchers and cutting-edge facilities. With robust quality assurance protocols, POC guarantees unmatched device reliability and performance. Highlights of POC’s capabilities include:
