Symmetry and Decoherence-Free Subspaces in Quantum Neural Networks

Evolution of quantum states of array of quantum dots is analyzed by means of numerical solution of the von Neumann equation. For two qubit system with dipole–dipole interaction and common phonon bath the evolution of the symmetric state \(\frac{{ \uparrow \downarrow + \downarrow \uparrow }}{{\sqrt 2 }}\) leads to the mixture of the triplet states, leaving the singlet decoupled. For three qubit system \(\left( {D_{1/2}^{ \otimes 3} = D_{3/2} + 2D_{1/2} } \right)\) with common phonon bath we observed similar effects within the quartet state D_3/2 if all qubits were symmetrically connected.