Simulation of an entangled state in a chain of three nuclear spins system
Abstract
We study the formation of an entangled state in a one-dimensional chain of three nuclear spins system which interact weakly through the Ising type of interaction and taking into account first and second neighbor interactions. We can get this entangled state using two pulses (
π/2
and
π
pulses), and we study the efficiency of getting this entangled state as a function of the ratio of the second neighbor interaction coupling constant to the first neighbor interaction coupling constant (
J
′
/J
). We found that for
J
′
/J≥0.04
, the entangled state is well defined.