08/07/2025
THANK Q - Just like a binary bit is the basic unit of information in classical (or traditional) computing, a qubit (or quantum bit) is the basic unit of information in quantum computing. Quantum computing is driving new discoveries in healthcare, energy, environmental systems, smart materials, and beyond.
There are many physical implementations of qubits
Where classical computers use familiar silicon-based chips, qubits (sometimes called "quantum computer qubits") can be made from trapped ions, photons, artificial or real atoms, or quasiparticles. Depending on the architecture and qubit systems, some implementations need their qubits to be kept at temperatures close to absolute zero.
Superposition, interference, and entanglement π€πΎπ‘π»π§Ώ
Superposition enables quantum algorithms to utilise other quantum mechanical phenomena, such as interference and entanglement. Together, superposition, interference, and entanglement create computing power that can solve problems exponentially faster than classical computers.
As quantum technologies advance, we get closer to finding solutions to some of the world's most challenging problems. While this new paradigm holds incredible potential, quantum computing is very much in its infancy ππππ€£