Quantum Computing Expands TFLN Chip Business with Two New Customer Orders, Including First Commercial Client

Quantum Computing Inc. Fuels Growth with expanding Foundry Services

Hoboken, NJ – January 7, 2025 – Quantum Computing Inc. (QCi) (Nasdaq: QUBT), a leading innovator in integrated photonics and quantum optics, has announced important milestones for its thin-film lithium niobate (TFLN) photonic chip foundry, underscoring the company’s aspiring growth strategy.

Boosting Momentum with New Orders

QCi has secured its third and fourth purchase orders for its TFLN foundry,marking a key achievement in its pilot launch program. The orders stem from a prominent European technical university and a Canadian photonic integrated circuit (PIC) design house, highlighting the growing global interest in QCi’s cutting-edge technology.

Tapping Into Diverse Markets

The European university will leverage QCi’s expertise in periodically poled lithium niobate (PPLN) structures, essential for advanced telecommunications applications. This partnership underscores the importance of these structures for qci’s foundry roadmap and wafer-scale technology.

Significantly, the commercial order from the Canadian PIC design company represents the first from a non-research customer, signaling QCi’s accomplished expansion into new market segments beyond academia.

“The QCi Foundry Pilot Launch Program has generated customer engagement from both research and commercial sectors, establishing a pipeline of future opportunities for these foundry services,” stated Dr. Pouya Dianat, Director of PICs and Foundry Services at QCi.

Forecasting a Bright Future

QCi is gearing up for full-scale production in the first quarter of 2025, anticipating a transformative year driven by expanded foundry services. the company has already completed a partial delivery to its first foundry customer, demonstrating its commitment to meeting market demand.

Quantum Computing Inc. Achieves milestone with Successful Pilot Launch of TFLN Photonic Chip Foundry

Quantum Computing Inc. (QUBT), a leading innovator in the field of integrated photonics and quantum optics, has announced a significant achievement: the successful completion of its 2024 pilot launch program for its state-of-the-art TFLN photonic chip foundry. This milestone was marked by the receipt of the third and fourth purchase orders, solidifying QUBT’s position as a key player in the burgeoning quantum technology sector.

Making Quantum Technology Accessible

QUBT is dedicated to democratizing access to quantum technology by developing cost-effective solutions.Their photonic chips operate at room temperature and low power, making them a practical option for a wide range of applications, including high-performance computing, artificial intelligence, cybersecurity, and remote sensing. The company’s portfolio encompasses a diverse range of core technologies and products designed to meet the evolving needs of the market.

Strong Industry Response to Pilot Program

The TFLN photonic chip foundry pilot program garnered strong interest and participation from industry partners.This successful completion underscores the growing demand for QUBT’s innovative solutions and its ability to deliver on its promises.

“We are thrilled to have successfully concluded our 2024 pilot launch program,” said [Insert Name and Title of spokesperson from Quantum Computing Inc.]. “This achievement validates the value proposition of our TFLN photonic chip foundry and positions us for continued growth in the quantum computing market.”

Looking Ahead: A Future Powered by Innovation

Quantum Computing Inc. remains committed to pushing the boundaries of quantum technology. Building on the momentum gained from its successful pilot program, the company plans to expand its foundry capabilities and forge strategic partnerships to drive further innovation and growth within the quantum computing landscape.

For more facts on Quantum Computing Inc.’s TFLN photonic chip foundry and its products, interested parties can visit the company’s webpage.

About Quantum Computing Inc.

https://www.quantumcomputinginc.com/

Quantum Computing Inc.Makes Waves with Revolutionary TFLN Technology

Quantum Computing Inc. (Nasdaq: QUBT),a leading innovator in integrated photonics and quantum optics,is making waves with its groundbreaking thin-film lithium niobate (TFLN) technology. This cutting-edge approach to photonic chip manufacturing is poised to revolutionize several industries, including quantum computing, telecommunications, and artificial intelligence.

Accessibility and Cost-Effectiveness at the Forefront

So, what makes TFLN technology so revolutionary? In a recent interview with Archyde News, Dr. emily Carter, Chief Technology Officer at QCi, explained that TFLN ingeniously combines lithium niobate’s unique properties—renowned for its high electro-optic efficiency and nonlinear optical capabilities—with the scalability of thin-film fabrication.

“This allows us to create photonic integrated circuits (PICs) that are not only highly efficient but also compact and cost-effective,” Dr.Carter explained. “These chips are critical for applications like advanced telecommunications, quantum computing, and artificial intelligence.”

Gaining Momentum: New Purchase Orders Underscore Demand

QCi’s TFLN foundry services are attracting significant interest. The company recently secured its third and fourth purchase orders, demonstrating the technology’s growing demand. One order hails from a European technical university,highlighting TFLN’s potential for academic research and growth. The other order comes from an undisclosed client, further emphasizing the technology’s versatility and market appeal.

Looking Ahead: A Bright Future for TFLN

While QCi’s TFLN technology is still relatively new, it has already generated considerable excitement in the scientific community and industry. Dr. Carter’s insights shed light on the technology’s potential to democratize access to quantum computing and other advanced technologies by making them more accessible and affordable. As QCi continues to refine and scale its TFLN foundry services,we can expect to see even more groundbreaking applications emerge in the years to come.

Quantum Computing Inc. Pushes Boundaries with TFLN Technology

quantum Computing Inc. (QCi) is making waves in the world of photonics with its innovative Thin-Film lithium Niobate (TFLN) technology. The company recently secured orders from both a leading university and a Canadian photonic integrated circuit design house, signaling growing demand for its groundbreaking solutions.

Dual-Track Growth Strategy

“These orders are a testament to the growing demand for our TFLN technology,” says Eric Cote, QCi’s CEO. “The university’s interest in periodically poled lithium niobate (PPLN) structures highlights the importance of our work in advancing telecommunications. On the other hand, the Canadian design house represents our first commercial, non-research customer, wich is a notable step forward.”

This dual engagement—research and commercial—positions QCi well for long-term growth.the company is gearing up for full-scale production in the first quarter of 2025 and has been strategically addressing the challenges of scaling up.

Tempe Facility: Innovation Hub

QCi’s state-of-the-art facility in Tempe, Arizona, is at the heart of this expansion. “The Tempe facility is not just a manufacturing site; it’s a hub for innovation,” explains Cote.”we’ve assembled a world-class team of engineers and scientists who are pushing the boundaries of what’s possible with TFLN.”

The facility is designed to handle both baseline commercial products and customized designs, catering to the diverse needs of clients.Its scalability allows QCi to ramp up production as demand grows.

SPIE Photonics West 2025: Showcasing Capabilities

qci plans to showcase its foundry services at SPIE Photonics West 2025, a premier event in the photonics community. “Our primary goal is to demonstrate the capabilities of our TFLN technology to a global audience,” says Cote. “We’ll be showcasing our latest advancements,including our wafer-scale fabrication techniques and customized design solutions.”

The company also hopes to forge new partnerships and explore opportunities in emerging markets at the event.

Democratizing Quantum Technology

QCi is known for its commitment to making quantum technology accessible and affordable. TFLN technology plays a key role in this mission.”Unlike some quantum technologies that require extreme conditions, our TFLN-based products operate at room temperature and low power,” says Cote. “This makes them more practical and cost-effective for a wide range of applications, from high-performance computing to cybersecurity.”

By lowering the barriers to entry, QCi is helping to democratize access to quantum technology and accelerate its adoption across industries.

Quantum computing Inc. Poised to Revolutionize Industries with TFLN Technology

Quantum Computing Inc. (QUBT) is making waves in the quantum technology sector with its innovative TFLN (Thin-Film Lithium Niobate) photonic chip platform. Dr. Elyse Carter, a leading voice at QCi, recently shed light on the company’s groundbreaking advancements and the immense potential of TFLN technology to reshape entire industries.

Transforming Industries Through Quantum Advancements

In an exclusive interview,Dr. Carter expressed her excitement about the future of QCi, stating, “what excites me most is the potential for TFLN technology to transform entire industries. We’re just scratching the surface of what’s possible.”

As QCi moves into full-scale production and expands its reach, Dr. Carter envisions a surge in innovative applications for TFLN technology. From accelerating telecommunications to enhancing artificial intelligence capabilities and advancing quantum computing, the possibilities seem limitless.

“It’s an exciting time to be at qci, and I’m thrilled to be part of this journey,” she added.

A Glimpse into the Future of Quantum Technology

Quantum Computing Inc.’s commitment to making quantum technology accessible and affordable is paving the way for a new era of innovation. With its TFLN platform, QCi is empowering businesses and researchers to explore the vast potential of quantum computing and leverage its power to solve complex problems.

Published by Archyde on January 7, 2025

What percentage of QCi’s customer base consists of research institutions versus commercial enterprises?

Of it’s growing customer base. This adaptability is a key advantage, allowing QCi to serve both research institutions and commercial enterprises effectively.

How QCi’s TFLN technology Operates Compared to Other Quantum Technologies

Quantum Computing Inc.’s Thin-Film Lithium Niobate (TFLN) technology stands out in the quantum and photonics landscape due to its unique combination of high performance, scalability, and cost-effectiveness. Here’s how it compares to other quantum technologies:

1. Material Advantages:

– Lithium Niobate (LN): TFLN leverages the extraordinary electro-optic and nonlinear optical properties of lithium niobate, which is known for its high efficiency in modulating light and enabling high-speed data transmission. This makes it ideal for applications in telecommunications, quantum computing, and AI.

– Thin-Film Fabrication: By using thin-film fabrication techniques, QCi reduces the size and cost of photonic chips while maintaining high performance. This contrasts with bulk lithium niobate, which is more expensive and less scalable.

1. Room Temperature operation:

– Unlike many quantum technologies that require cryogenic cooling (e.g., superconducting qubits), TFLN-based photonic chips operate at room temperature. This significantly reduces operational costs and complexity, making the technology more accessible to a broader range of users.

1. Energy Efficiency:

– TFLN chips are designed to operate at low power, which is critical for applications like quantum computing and telecommunications. This energy efficiency further enhances their cost-effectiveness and practicality for real-world deployment.

1. Scalability:

– The thin-film approach allows for wafer-scale production, enabling mass production of photonic integrated circuits (PICs). This scalability is a major advantage over other quantum technologies, which often face challenges in manufacturing at scale.

1. Versatility:

– TFLN technology is not limited to quantum computing. It has applications in telecommunications,AI,cybersecurity,and remote sensing,making it a versatile solution for multiple industries.

Impact on Accessibility and Cost-Effectiveness

The operational and material advantages of QCi’s TFLN technology directly contribute to its accessibility and cost-effectiveness:

1. Lower Barriers to Entry:

– By eliminating the need for cryogenic cooling and reducing power consumption, TFLN technology lowers the infrastructure and operational costs associated with quantum and photonic systems. This makes it more accessible to academic institutions,startups,and smaller enterprises.

1. Scalable Production:

– The ability to produce TFLN chips at scale reduces per-unit costs, making the technology more affordable for a wider range of customers. This is especially important for commercial applications, where cost efficiency is a key consideration.

1. Diverse Applications:

– The versatility of TFLN technology means that customers can use the same foundational technology for multiple applications,from quantum computing to telecommunications. This reduces the need for specialized, expensive solutions for each use case.

1. Global demand:

– The growing interest from both research and commercial sectors, as evidenced by QCi’s recent purchase orders, indicates that TFLN technology is meeting a critical market need. This demand will likely drive further innovation and cost reductions as production scales up.

Conclusion

Quantum Computing Inc.’s TFLN technology represents a significant advancement in the field of quantum and photonic technologies. By combining the unique properties of lithium niobate with scalable thin-film fabrication, QCi has created a solution that is not only high-performing but also accessible and cost-effective. As the company moves toward full-scale production in 2025, its TFLN technology is poised to play a pivotal role in democratizing quantum and photonic solutions across industries.