Archer Materials Limited (ASX: $AXE) provides an update on its quantum computing 12CQ Project, including the development of a new method to enhance the accuracy and speed of reading quantum information using resonators, ultimately to improve single electron spin detection. The company has achieved longer electron spin lifetimes and improved the accuracy and speed of quantum information readings.
The Archer team has developed a new method to improve the detection of single electron spins using resonators. These resonators can be fine-tuned for faster and more accurate readings, a critical advancement for handling more qubits. Our quantum team, led by Dr Simon Ruffell and Dr Byron Villis, has achieved a lot during the past few months, and we look forward to updating the market on the results of our work with QMUL. Archer's research is ongoing as it aims to enhance its devices and progress toward practical quantum computing applications.
Archer Materials Limited (ASX: $AXE) has made significant progress in its Quantum Technology Project, developing a new method to enhance the accuracy and speed of reading quantum information using resonators, ultimately to improve single electron spin detection. The company has achieved longer electron spin lifetimes and improved the accuracy and speed of quantum information readings. Additionally, Archer has established a collaboration with Queen Mary University of London to explore electron behavior in CNOs using graphene-based nanodevices, aiming to use Coulomb blockade to directly measure quantum state. The company aims to optimize CNO chemistry and physical properties in future work to bolster electrical conductivity of the CNO material. Archer's ongoing research and collaborations demonstrate its commitment to advancing quantum technology and medical diagnostics industries.