In the fusion reactor, energy is obtained using a fusion reaction of deuterium (D) and tritium (T). Tungsten (W) is a promising candidate for plasma-facing materials in fusion reactors due to its low spattering yield, high melting point, and low hydrogen solubility. During the operation of the fusion reactor, W will be irradiated by high flux D, T and neutron, which will introduce irradiation defects. In addition, W will be transmuted to rhenium (Re) by the nuclear reaction with neutron. PAS and D⁺ irradiation-TDS were performed on neutron damaged W and W-Re. The positron lifetime for undamaged W-Re was shorter than undamaged W. It was considered that Re would reduce the size of intrinsic defects.