Strain-Engineered Graphene for Electrically Tunable Spin Qubits
Analysis
This research explores a promising avenue for quantum computing by leveraging graphene's unique properties. The ability to electrically tune spin qubits in graphene p-n junctions could lead to more efficient and controllable quantum devices.
Key Takeaways
- •Focuses on graphene's potential for quantum computing.
- •Explores the use of strain engineering for qubit control.
- •Suggests potential for more efficient and controllable quantum devices.
Reference
“Electrically tunable spin qubits in strain-engineered graphene p-n junctions”