Nanofiber Quantum Technologies

Nanofiber Quantum Technologies Inc. ("NanoQT") has successfully secured $8.5m in funding from notable venture capital investors in US and Japan. This infusion of capital will propel NanoQT's mission to develop its proprietary quantum processing unit (QPU) designed for quantum repeaters, a groundbreaking innovation poised to reshape the landscape of quantum computing. With its unique approach, NanoQT emphasizes modularity, scalability, and enhanced connectivity for quantum networks. Special thanks to our partners and investors for believing in our vision. As we look ahead, we are deeply committed to fostering Japan-US collaborations, onboarding global talent, and driving advancement in the quantum computing arena.

We are pleased to share a new perspective paper "Scalable Networking of Neutral-Atom Qubits: Nanofiber-Based Approach for Multiprocessor Fault-Tolerant Quantum Computer" on arXiv at https://lnkd.in/gaXpW-_q In this paper, we clarify the criteria and technological requirements necessary to scale up neutral-atom quantum computers beyond a single module by connecting them through photonic networking links. Our analysis demonstrates that state-of-the-art nanofiber optical cavities, developed by NanoQT researchers (https://lnkd.in/gxah4NKv), can serve as an efficient atom-photon interface for scaling up through time, wavelength, and channel multiplexing. This allows multiple neutral-atom quantum computers to operate cooperatively without sacrificing computational speed. These findings suggest a viable approach for building large-scale, multiprocessor, fault-tolerant quantum computers utilizing neutral atoms, nanofiber optical cavities, and fiber-optic networks. Read our article about this paper at: https://lnkd.in/gemNN6KK #QuantumComputing #NeutralAtomQubits #NanofiberOptics #NanoQT

We are pleased to share a new perspective paper "Scalable Networking of Neutral-Atom Qubits: Nanofiber-Based Approach for Multiprocessor Fault-Tolerant Quantum Computer" on arXiv at https://lnkd.in/gaXpW-_q In this paper, we clarify the criteria and technological requirements necessary to scale up neutral-atom quantum computers beyond a single module by connecting them through photonic networking links. Our analysis demonstrates that state-of-the-art nanofiber optical cavities, developed by NanoQT researchers (https://lnkd.in/gxah4NKv), can serve as an efficient atom-photon interface for scaling up through time, wavelength, and channel multiplexing. This allows multiple neutral-atom quantum computers to operate cooperatively without sacrificing computational speed. These findings suggest a viable approach for building large-scale, multiprocessor, fault-tolerant quantum computers utilizing neutral atoms, nanofiber optical cavities, and fiber-optic networks. Read our article about this paper at: https://lnkd.in/gemNN6KK #QuantumComputing #NeutralAtomQubits #NanofiberOptics #NanoQT

We are excited to announce our partnership with Nanofiber Quantum Technologies (NanoQT) and QunaSys. Together, we will push the boundaries of quantum research and bolster Japan’s quantum ecosystem. https://lnkd.in/gdCuX9hr

We're thrilled to hear that H. Jeff Kimble is the inaugural recipient of the Leonard Mandel Quantum Optics Award! Jeff's pioneering work spans a wide range of quantum physics, including quantum optics, quantum metrology, and quantum information science. His work has been instrumental in creating quantum states of the optical field, applying these advancements to enhance the sensitivity of optical interferometry and atomic spectroscopy beyond conventional quantum limits. A significant part of his legacy also includes demonstration of strong coupling between single atom and photon through his studies in cavity quantum electrodynamics, and its application to quantum information processing, including on-demand single-photon generation and photon blockade etc, summarized in his review. NanoQT’s technology is heavily inspired by and rests on Jeff's pioneering work, especially in micro/nanophotonic cavities. The company is very proud to be pushing this technology towards commercialization. https://lnkd.in/g3FWCTjK

NanoQT is proud to highlight our recent completion of the CDL, alongside esteemed peers in the quantum technology sector. For more insights into our projects and ongoing developments, please visit our company website. https://lnkd.in/gRir44Yi

NanoQT is proud to highlight our recent completion of the CDL, alongside esteemed peers in the quantum technology sector. For more insights into our projects and ongoing developments, please visit our company website. https://lnkd.in/gRir44Yi

We are thrilled to announce that Akihisa Goban, the Chief Technology Officer of NanoQT, will be participating in the upcoming NQFF Industry Day focused on Integrated Photonics. This event is organized by A*STAR's Institute of Materials Research and Engineering, and it's a crucial meeting point for industry leaders in quantum technology. Akihisa will be a speaker at the "Panel Discussion with Quantum Photonics System Developers," where he will share insights from the cutting edge of quantum photonics technology. Join us for a day of insightful discussions and networking with pioneers in the industry! https://lnkd.in/eEc-Aw3s #QuantumTechnology #Photonics #Innovation #NanoQT

NanoQT Announces a Landmark Collaboration with the University of Calgary    We are thrilled to share news of our pioneering partnership with the University of Calgary, guided by renowned quantum specialist Professor Christoph Simon. This collaboration focuses on advancing quantum repeater technology, a key component for future quantum networks. NanoQT's innovative nanofiber QED system, along with the University of Calgary's research expertise, is set to break new ground in quantum computing and enhance secure communication.     Please visit the full article https://lnkd.in/gyX2WHUx #NanoQT #UniversityOfCalgary #QuantumComputing #QuantumNetworking #Innovation #Collaboration

We are delighted to share that Akihisa Goban, the Chief Technology Officer of NanoQT, will be a featured panelist at the RAND Quantum Technology Conference. This notable event, a collaboration between RAND, Japan House Los Angeles, and the Consulate General of Japan, is set to take place on January 18th in Santa Monica, California. Key Details: - Venue: Santa Monica, CA (Hybrid Format) - Date: January 18th - Attendance: Free and open to the general public, highly recommended for those interested in technological innovation This conference promises to be an exceptional platform for learning about the advancements in quantum technology, particularly in the context of U.S. and Japan collaboration. We're looking forward to gaining insights from a distinguished panel of experts, including our very own Akihisa Goban. Join us in this exploration of future technologies, either in person or online. Your participation and support in resharing this information are highly appreciated. https://lnkd.in/guHbrbjB #QuantumTechnology #Innovation #USJapanPartnership #TechConference #NanoQT #RandConference