Journal logo

Oxford Instruments Nanoscience Gives Its State-of-the-Art Proteox to Oxford Quantum Circuits

Oxford Instruments Nanoscience Gives Its State-of-the-Art Proteox to Oxford Quantum Circuits

By Emily WoodPublished 3 years ago 3 min read
Like

Quantum computing will expand its outreach with a rapid surge in the future. It holds the potential to bring ultra-high-speed computation by replacing many-core and essential elements of electronics. Countries like the USA and the UK are pushing to create an ecosystem for Quantum computing. The recent news of Oxford Instruments Nanoscience giving its modular cryofree refrigerator Proteox to the Oxford Quantum Circuits is the next step to commercialize this domain in the UK. This delivery is a part of a collaboration between two organizations. Let’s dig out more information on this cryofree refrigerator and how it can help humanity.

Latest Development

Oxford Instrument Nanoscience collaborated with Oxford Quantum Circuits (OQC) to develop quantum computing-based solutions for many applications. OQC Ilana Wisby announced the delivery of Proteox to OQC, considering it as a milestone to build a quantum-powered future. Even Oxford Instruments’ Managing Director Stuart Wood came front and discussed this latest development. Stuart Wood talked about Oxford Instruments’ future plans to build next-gen quantum technologies, expanding commercial quantum computing, early-stage single qubit research, etc.

What is quantum computing?

Quantum computing uses modern physics concepts that observe the photons (or light) and their energy transfer. Therefore, it combines with the photon’s optical nature to render a more incredible amount of speed. It uses two phenomena, including entanglement and superposition, to execute and perform quantum computations. Quantum entanglement means the interaction of the two or more photons in such a way that the quantum state of one photon is not independent of the other photon, and quantum superposition depicts that there can be one or more quantum states for any photon. Hence, by tapping these two properties, one can ensure the fidelity of the data with high precision and less error. It also helps to transmit large volumes of data to a distant place with low latency.

About Proteox

Proteox is a modular cryofree dilution refrigerator that can offer high adaptability and experimental capacity. This experimental capacity and capability come with a secondary insert that has full customization to enable rapid exchange of setups. Hence, one can use it for multi-experimentation that saves a lot of time and money for scientists and researchers. To get a better understanding of the collected experimented data, Proteox provides intuitive software that is platform-independent, easy to use, web-based so that one can access it easily. The software also has a log storing facility to visualize the data from anywhere along with its simulations.

Features

Extensive Experimental Volume – Proteox provides bulky volume for the experimentation. Oxford Instruments Nanoscience developed it by combining a 360 mm diameter mixing chamber plate with other experimental hardware systems to create graded increment spacing to integrate cold electronics norms.

Integrate Sample Exchange – Oxford Instruments integrate Proteox with their patented bottom loader system into the secondary insert. Hence, this integration enhances rapid sample exchange. The integration also brings magnetic coupling into the setup.

High Input/Output Capability – To scale-up the qubit rate and high input/output applications, instruments, including ISO100 ports on the second insert, are present. Similarly, for the primary insert, two KF40 and KF25 each are present.

Stability and Reliability – Proteox comes with a gas handling system in the cold storage electronics hardware. It helps to stabilize the temperature inside the experiment space and reduce service requirements accordingly. Hence, it enhances the durability and reliability of the entire instrumental setup.

Applications

Proteox, due to its characteristics and features, gives it an edge to use for several domains. However, considering the present scenario, one can harness this setup for combating global climate changes and the medicinal field. Especially for medical applications, quantum computing can be like aid to biotechnology for genome sequencing and medical simulation to check the impact of therapeutic drugs, 3D bioprinters, etc. Even though there is a race to deliver faster speed data transmission, quantum computing can enhance its outreach to data communication and cellular networks and develop high-speed processors.

Conclusion

OQC and Oxford Instruments’ joint venture can open floodgates to adopt and harness quantum mechanics and computing more into daily life. There is a significant probability that many nations may follow this UK strategy to commercialize quantum computing. With quantum computing throwing its stake over various sectors every day can bring more frequent products delivered with quantum technology.

Source: Oxford Instruments Nanoscience Gives Its State-of-the-Art Proteox to Oxford Quantum Circuits

industry
Like

About the Creator

Reader insights

Be the first to share your insights about this piece.

How does it work?

Add your insights

Comments

There are no comments for this story

Be the first to respond and start the conversation.

Sign in to comment

    Find us on social media

    Miscellaneous links

    • Explore
    • Contact
    • Privacy Policy
    • Terms of Use
    • Support

    © 2024 Creatd, Inc. All Rights Reserved.