kvantbitt

Kvantbitt is the fundamental unit of quantum information in quantum computing and quantum communication. It is the quantum analogue of the classical bit and can exist in a superposition of the basis states 0 and 1. A kvantbitt is described by a two-level quantum system, with a state vector |ψ> = α|0> + β|1>, where α and β are complex amplitudes satisfying |α|^2 + |β|^2 = 1. Observing a kvantbitt yields 0 with probability |α|^2 and 1 with probability |β|^2, and the act of measurement generally collapses the state to a definite outcome.

Physically, kvantbitts are realized in various platforms, including superconducting circuits (transmon qubits), trapped ions, semiconductor quantum

Key properties include superposition, interference, and entanglement, the latter enabling correlations that have no classical counterpart.

Applications range from quantum algorithms—Shor’s factoring, Grover’s search—to quantum simulation and secure communication protocols such as