Description: Molecular qubit systems are structures that use molecules to create qubits, the basic unit of information in quantum computing. Unlike traditional qubits, which may be based on systems like electrons or photons, molecular qubits leverage the quantum properties of molecules, such as their electronic spin or vibrational states. This allows molecular qubit systems to be highly scalable and potentially easier to integrate into existing devices. The manipulation of these qubits is performed through techniques like magnetic resonance or by applying electric and magnetic fields, enabling complex quantum operations. Research in this field aims not only to improve the stability and coherence of qubits but also to explore new forms of entanglement and superposition that are fundamental to quantum information processing. The relevance of molecular qubit systems lies in their potential to overcome some limitations of conventional qubits, offering a promising pathway toward building more efficient and powerful quantum computers.
