Quantum Computing Inc, a leading integrated photonics and quantum optics technology company, has secured its third and fourth purchase orders for its thin-film lithium niobate photonic chip foundry. The orders were received from a European technical university and a Canadian photonic integrated circuit design house.
According to Dr Pouya Dianat, Director of PICs and Foundry Services at Quantum Computing Inc, the company’s foundry pilot launch program has generated customer engagement from both research and commercial sectors. The technology utilizes poled lithium niobate structures, essential for optical frequency conversion and entangled photon generation, with potential applications in advanced telecommunications periodically.
Quantum Computing Inc plans to officially launch its complete foundry services in the first quarter of 2025, with a facility in Tempe, Arizona dedicated to manufacturing high-performance photonic chips. The company will showcase its foundry services at the upcoming SPIE Photonics West 2025 event in San Francisco.
Introduction to Quantum Computing Inc. and its TFLN Photonic Chip Foundry
Quantum Computing Inc. (QCi) is a company that specializes in the development of integrated photonics and quantum optics technology. Recently, QCi announced receiving its third and fourth purchase orders for its thin-film lithium niobate (TFLN) photonic chip foundry. These orders were placed by a renowned European technical university and a Canadian photonic integrated circuit (PIC) design house, marking a significant milestone in the QCi Foundry Pilot Launch Program. The TFLN photonic chip foundry is a critical component of QCi’s business, as it enables the production of high-performance photonic chips that can be used in various applications, including telecommunications, artificial intelligence, and cybersecurity.
The university that placed one of the orders plans to utilize QCi’s expertise in periodically poled lithium niobate (PPLN) structures, essential for optical frequency conversion and entangled photon generation. The PPLN structures will be used to develop advanced telecommunications applications, highlighting the potential of TFLN technology in this field. On the other hand, the Canadian PIC design company’s order represents the first commercial order from a non-research-based customer, demonstrating the growing interest in QCi’s foundry services among industry players.
QCi’s Director of PICs and Foundry Services, Dr. Pouya Dianat, stated that the QCi Foundry Pilot Launch Program has generated significant customer engagement from both research and commercial sectors, establishing a pipeline of future opportunities for these foundry services. The company is expected to officially launch its full foundry services in Q1 2025, which is anticipated to be a pivotal year for QCi’s growth. As the company continues to expand its foundry services throughout 2025, it is likely that this pipeline will be converted into orders, driving further growth and development.
TFLN Technology and its Applications
TFLN technology is a critical component of QCi’s business, as it enables the production of high-performance photonic chips that can be used in a variety of applications. The TFLN photonic chip foundry uses lithium niobate, a material that has excellent optical properties, to produce photonic chips that can operate at room temperature and low power. This makes TFLN technology particularly attractive for applications where power consumption and heat generation are major concerns.
One of the key applications of TFLN technology is in telecommunications. The PPLN structures developed by QCi can be used to create high-speed optical modulators, which are critical components in modern telecommunications systems. These modulators enable the transmission of large amounts of data over long distances, making them essential for applications such as cloud computing and big data analytics.
In addition to telecommunications, TFLN technology also has potential applications in artificial intelligence and cybersecurity. For example, photonic chips produced using TFLN technology can be used to create high-speed optical interconnects, which are critical components in modern AI systems. These interconnects enable the rapid transfer of data between different parts of an AI system, making it possible to develop more complex and sophisticated AI models.
QCi’s Foundry Services and Collaboration Opportunities
QCi plans to work closely with its clients on baseline commercial TFLN chip products and customer-unique designs through its foundry service offering. The company will leverage its expertise in design, fabrication, and characterization to provide high-quality photonic chips that meet the specific needs of its clients. This collaborative approach is expected to drive innovation and growth in the industry, as companies work together to develop new and exciting applications for TFLN technology.
To learn more about QCi’s foundry services and collaboration opportunities, the company will be showcasing its capabilities at the upcoming SPIE Photonics West 2025 conference in San Francisco, California. This event is one of the largest photonics technologies conferences in the world, attracting industry leaders, researchers, and innovators from around the globe. By attending this conference, QCi hopes to raise awareness about its foundry services and establish new partnerships with companies that are interested in developing innovative applications using TFLN technology.
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