Holographic Representation of Quantum Information

This paper introduces the holographic principle into quantum informatics and presents the possibilities of future applications of this approach. The analyze of time varying quantum objects yields into the surprising results that in selected time samples we get the superposition of quantum states defined through k-integer multiplications of phase circle 2.pi. The main idea of holographic principle is to use this quantum feature to encode the information signal s(k) on quantum phase carrier dependent on k-integer multiplications. In paper the superposition of real quantum objects (with encoded information signal) and reference quantum objects is used to estimate the modulus and phase parameters of real quantum objects and so to provide the quantum information decoding. Introduction of quantum consciousness model based on defined holographic principle could be the interesting hypothesis for future theories.