Quantum gates and quantum algorithms with Clifford algebra technique

Abstract

We use our Clifford algebra technique, that is nilpotents and projectors which are binomials of the Clifford algebra objects γa with the property \γa,γb\+ = 2 ηab, for representing quantum gates and quantum algorithms needed in quantum computers in an elegant way. We identify n-qubits with spinor representations of the group SO(1,3) for a system of n spinors. Representations are expressed in terms of products of projectors and nilpotents. An algorithm for extracting a particular information out of a general superposition of 2n qubit states is presented. It reproduces for a particular choice of the initial state the Grover's algorithm.