The introduction of potassium fluoride post-deposition treatment (KF-PDT) has opened the experimental potential for higher efficiencies. Until now, a little is known about the effect of KF-PDT on CIGS thin films. Due to this, here, we investigated the role of KF-PDT on CIGS thin films by additional indium deposition after CIGS growth. CIGS absorber layers were deposited onto Mo/soda-lime glass (SLG) substrate using molecular beam epitaxy (MBE) system. In a typical experimental process, four sets of CIGS absorber layers were deposited and the additional indium depositions were performed for these samples for 0, 30, 60 and 120 sec. respectively (after CIGS growth). KF-PDT was performed on these absorber layers under identical condition. CIGS solar cells were fabricated with MgF₂/Ni/Al/ZnO:Al(300nm)/ZnO(100nm)/CBD-CdS(70nm)/ CIGS(2.3~2.5μm) /Mo /SLG structure. The best efficiencies were obtained at additional indium deposition for 60 sec after KF-PDT. XPS measurements revealed that additional indium at the very near surface region on CIGS absorber layer support the formation of Cu-poor thin films after KF-PDT. As a result, open circuit voltage (V_oc) increase due to the formation of high-density shallow donor-type Cd_Cu during CBD-CdS process, thereby, improving the photovoltaic performances. The details of CIGS thin film properties, including XPS, SIMS, J-V, EQE, TRPL and C-V will be discussed.