Qubit Technology

8 components tracked in the Quancord quantum supply-chain knowledge graph.

Ion Trap

Device for trapping and controlling ions for use in quantum computing

Neutral Atom Qubits

A qubit technology leveraging individual neutral atoms trapped and manipulated using optical tweezers, enabling scalability and high coherence times for quantum computing applications.

Photonic Qubits

Photonic qubits employ photons, particularly their polarization or phase, to encode quantum information in quantum computing systems.

Silicon-based Qubits

Silicon-based qubit technology for scalable quantum computing, integrating quantum and classical computing on a single chip.

Spin Qubits

Spin qubits use the spin states of electrons or nuclei to represent quantum bits, enabling quantum information processing.

Superconducting Qubits

Superconducting qubits are quantum bits implemented using superconducting circuits cooled to cryogenic temperatures, used in quantum computing systems.

Topological Qubits

Topological qubits are quantum bits that leverage topological states of matter to store and manipulate quantum information with inherent error resistance.

Trapped Ion Qubits

Trapped Ion Qubits utilize ions confined in electromagnetic traps to represent quantum bits for quantum computing applications.

Other categories

Cryogenic Systems (12)
Control Electronics (9)
Quantum Networking Components (4)
Signal Control Lines (4)
Quantum Optical Components (3)
Shielding (3)