We investigated the anisotropic spin dephasing depending on the direction of external magnetic field in semiconductor wires based on a 20-nm (001)-oriented GaAs/AlGaAs quantum well (QW). We employed time-resolved Kerr rotation microscopy for measuring the spin dephasing time in the wires. Spin dephasing time exhibits anisotropy with two-fold symmetry, which is enhanced when B_ex and spin-orbit fields are orthogonal to each other. By solving the spin diffusion equation, we obtained the analytical formula to explain such an enhanced spin dephasing time by the lateral confinement of electron momentum.