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What holds back the next generation of communication systems, computation power, sensors, security, and energy-efficient solutions is cutting-edge technology at the intersection of semiconductors and photonics.
Light and Matter are the reason for the existence of the Universe, life, and every possible technology. Pushing the limits of any possible technology in solving real-world challenges means unlocking the potential of semiconductor photonics.
Interconnectivity is the 21st-century demand. Electronics’ brain is Semiconductor, while Photonics is involved in the applications of generation, detection, and manipulation of light. Combining photonics with the miniaturization and the power of semiconductors means meeting the requirements for:
Building blocks of every technology
Without semiconductors, all available technologies and future technologies wouldn’t be possible.
Semiconductors are the essential part of electronic devices manufactured as individual discrete components or as integrated circuits (IC) made from pure elements, like silicon (SI) or germanium(Ge), gallium arsenide(GaAs), silicon carbide (SiC), Indium (In), etc.
Semiconductor Technologies are not only the building blocks of all technologies but also contribute to the accessibility and affordability of technology to humanity. Semiconductors make the devices more compact, less expensive, and more powerful.
When you say chip Industry, you say semiconductors.
Without semiconductors, all available technologies and future technologies wouldn’t be possible.
Semiconductors are the essential part of electronic devices manufactured as individual discrete components or as integrated circuits (IC) made from pure elements, like silicon (SI) or germanium(Ge), gallium arsenide(GaAs), silicon carbide (SiC), Indium (In), etc.
Semiconductor Technologies are not only the building blocks of all technologies but also contribute to the accessibility and affordability of technology to humanity. Semiconductors make the devices more compact, less expensive, and more powerful.
When you say chip Industry, you say semiconductors.
Generating, Detecting, and Manipulating Light to push the technological limits of the 21st century.
Photonics, the science of light, involves creating, detecting, and manipulating light for practical applications. It takes advantage of the wave-particle duality of light. The continuous nature of light is known as electromagnetic waves, while the particle nature of light is known as photons.
Photonics devices are promising technology for speed improvement applications (by order of magnitude), reducing power consumption for data transmission, achieving high-speed data communications combined with Integrated circuits (IC), and ultra-sensitive advanced sensing and imagining.
Photonic devices are small and can be integrated at the chip level.
The range of applications is enormous, from ultra-high-speed devices to meet the requirements of 5G and 6G for telecommunication as well as in the terahertz regime, the energy efficiency of the data centers, chip communication speed up, medical imaging, sensors, optoelectronics, and the next generation of memory and computers processing units.
Generating, Detecting, and Manipulating Light to push the technological limits of the 21st century.
Photonics, the science of light, involves creating, detecting, and manipulating light for practical applications. It takes advantage of the wave-particle duality of light. The continuous nature of light is known as electromagnetic waves, while the particle nature of light is known as photons.
Photonics devices are promising technology for speed improvement applications (by order of magnitude), reducing power consumption for data transmission, achieving high-speed data communications combined with Integrated circuits (IC), and ultra-sensitive advanced sensing and imagining.
Photonic devices are small and can be integrated at the chip level.
The range of applications is enormous, from ultra-high-speed devices to meet the requirements of 5G and 6G for telecommunication as well as in the terahertz regime, the energy efficiency of the data centers, chip communication speed up, medical imaging, sensors, optoelectronics, and the next generation of memory and computers processing units.
SEMICONDUCTOR & PHOTONICS TECHNOLOGIES FOR CROSS-TECHNOLOGICAL APPLICATIONS THAT DEMAND MINIATURIZATION AT THE CHIP LEVEL, ULTRA-FAST DATA TRANSMISSION, ULTRA-SENSITIVE SENSORS, ENERGY EFFICIENCY SOLUTIONS, AND ULTIMATE CYBERSECURITY.
Your industry, communication, environment, and your challenge are unique.
We work together with the Industrial R&D department to strengthen their innovative capabilities, access and identify challenges and valuable problems, guarantee cross-technological innovative solutions, and create a competitive advantage while bringing business value.
Modeling and Development of the Cross-Technological Innovative Solutions.
Innovations meeting Marketability Criteria.
