Abstract
The important principle of quantum information technologies is quantum teleportation. This principle makes it possible to exchange data with otherwise inaccessible zones, transfer information about state of photons without revealing, destroying stored data. Quantum teleportation consists in preparation of an entanglement and measurement in Bell basis and resulting post-selective transfer of quantum state. In this work, we show the possible state transfer of photon polarization into the nuclear spin of phosphorus in a metamaterial made of Si (100) and P (31) implanted into it. The phosphorus nuclear spin first entangled with electron spin, thereafter photon polarization and electron state measured in Bell basis by photon absorption to get the photon polarization state in the phosphorus spin state.
Article to be published