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Author(s): Arvydas Tamulis
Neutral radical Acetylcholine Molecule (ACh) play important role in the transmission of peripheral nerve signals and in the processes of the central nervous system which are related with consciousness but also might be employed for the therapy of brain and other nervous system tumors. Molecular complex containing two ACh molecules and photoactive hypericin molecule (in the center of figure) in acetonitrile or in water molecules environments were investigated using quantum mechanica various density functional methods. During research efforts at Los Alamos National Laboratory (LANL) focused on constructing a quantum computer based on regular arrays build from neutral radical molecules possessing one single unpaired electron spin. The idea was built on the ability to manipulate individual electron spins in a solid matrix or lattice. It was suggested that selfassembled monolayer systems could be used to create macroscopic ensemble of quantum entangled 3-spin groups as a first step in quantum information processing. The spins of such a group could be connected by dipole-dipole quantum couplings. Application of a nonuniform external magnetic field could allo selective excitation of every spin inside the group. The proper sequence of resonant electromagnetic pulses would then drive all spin groups into a 3-spin entangled state. We have found selfassembly of four neurotransmitter ACh molecular complexes in a water molecules environment by using geometry optimization with DFT B97d method.
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