Exploiting Quantum Teleportation in Quantum Circuit Mapping

Abstract: Quantum computers are constantly growing in their number of qubits, but continue to suffer from restrictions such as the limited pairs of qubits that may interact with each other. Thus far, this problem is addressed by mapping and moving qubits to suitable positions for the interaction (known as quantum circuit mapping). However, this movement requires additional gates to be incorporated into the circuit, whose number should be kept as small as possible since each gate increases the likelihood of errors and de… Show more

“…On the other hand, the second protocol, quantum teleportation, is known to play a prominent role in quantum computation [24,25,26,27,28,29] and quantum communication [30,31,32,33]. In this respect, a particular application of teleportation is the so-called entanglement swapping, that is the generation of quantum correlations between distant subsystems using their entanglement with an auxiliary system: as discussed below, it can be effectively implemented using identical particle systems.…”

Entanglement and non-locality in quantum protocols with identical particles

“…On the other hand, the second protocol, quantum teleportation, is known to play a prominent role in quantum computation [24,25,26,27,28,29] and quantum communication [30,31,32,33]. In this respect, a particular application of teleportation is the so-called entanglement swapping, that is the generation of quantum correlations between distant subsystems using their entanglement with an auxiliary system: as discussed below, it can be effectively implemented using identical particle systems.…”

Entanglement and non-locality in quantum protocols with identical particles