I can provide you with information on Intel's approach to quantum chips.
Intel's goal to change as little as possible from leading edge technologies in making their quantum chips reflects a strategy known as "materials-agnostic" or "materials-first" approach. This approach aims to leverage existing manufacturing processes and infrastructure used in semiconductor manufacturing to develop quantum chips.
The idea behind this approach is to build quantum chips using similar fabrication techniques and materials found in traditional semiconductor manufacturing. By doing so, Intel aims to utilize their expertise in silicon technology and leverage the existing ecosystem of manufacturing facilities, equipment, and processes to accelerate the development and production of quantum chips.
The materials-agnostic approach is different from other approaches to quantum computing, such as those involving superconducting qubits or trapped ions, which often require specialized fabrication techniques and materials.
Intel has been actively investing in the development of quantum technologies and has made progress in the field. Their approach has its advantages, including the potential for scalability, compatibility with existing manufacturing processes, and the ability to leverage their existing expertise. However, it's worth noting that quantum computing is still in the early stages of development, and various approaches are being explored by different companies and research organizations.
It's important to keep in mind that the field of quantum computing is rapidly evolving, and specific details about Intel's current quantum chip development may have changed . For the most up-to-date information, I would recommend referring to Intel's official communications or visiting their website.