Quantum hardware is the backbone of quantum computing, enabling the manipulation of quantum bits (qubits) to perform complex calculations. This page provides an overview of the different types of quantum hardware available today.
Types of Quantum Hardware
Superconducting Qubits: These qubits use the quantum property of superconductivity to maintain a stable quantum state. They are widely used due to their long coherence times and scalability.
Ion Traps: These qubits use electric fields to confine charged ions and manipulate their quantum states. They offer high precision but are more challenging to scale up.
Topological Qubits: These qubits rely on the topological properties of quantum states to maintain stability. They are promising for future quantum computers due to their potential resistance to errors.
Quantum Hardware at Our Lab
At our lab, we specialize in developing superconducting qubits. We have successfully built and tested several generations of quantum processors, which have paved the way for further advancements in quantum computing.
To learn more about our quantum hardware, visit our Quantum Computing page.