Spin polarized induction of quantum correlations-entanglement using a 2 MeV proton beam channeling

Abstract

In solidstate hybrid electronnuclear spin systems quantum entanglement plays vital role in allowing accessible transfer of information between subatomic particles, regardless of the host lattice coordination spatial geometry, revealing the powerful resource for nuclear quantum states engineering. Here we present study of 2 MeV superfocused channeled proton (SCP) beam induced polarization of atomphoton correlated states, established in isotopically purified silicon nanocrystal. Two level entangling interaction which couples an initial quantum state to two possible lightmatter states via silicon nanocrystal interface is presented. The anisotropic hyperfine coupling is demonstrated by strong mixing of quantum states within the control mechanism of the coherent proton pulse sequence. Obtained results reveal the mutual predictable correlation of particles of energymatter, by using the fully broadcastable and precise hybrid electronnuclear spin qubit manipulations which can be exploited for the speedsuperior communication channels keeping at the same time the maximum degree of data preservation.