Virtual reality (VR) systems bring fantastic immersive experiences to users in multiple fields. However, the performance of VR displays is still troubled by several factors, including inadequate resolution, noticeable chromatic aberration, and low optical efficiency. Pancharatnam-Berry phase optical element (PBOE) exhibits several advantages, such as high efficiency, simple fabrication process, compact, and lightweight, which is an excellent candidate for VR systems. We have demonstrated that by using three kinds of PBOEs, the above-mentioned problems can be solved satisfactorily. The first PBOE is PB grating/deflector (PBD), which can deflect the left-handed and the right-handed circularly polarized beams to two opposite directions. Therefore, if we insert a PBD to the VR system and carefully design the deflection angle, it can optically separate each display pixel into two virtual pixels and superimpose them to obtain a higher pixel density. In this way, the pixel per inch (PPI) of the original display can be doubled. The second PBOE is PB lens (PBL). As one kind of diffractive optical lenses, it has an opposite chromatic dispersion to that of a refractive lens. When a PBL with an appropriate focal length is hybridized with a refractive Fresnel lens, the system’s chromatic aberration can be significantly reduced. The third PBOE is multi-domain PB lens. The effective focal length of each domain can be customized independently. This multi-domain PBL can function as a diffractive deflection film in the VR system. If such a diffractive deflection film is cooperated with a directional backlight, the etendue wasting can be reduced prominently, and more than doubled optical efficiency can be achieved in both Fresnel and “Pancake” VR systems. These ultrathin PBOEs will find promising applications in future VR systems
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