In　this　paper,　we　propose　a　new　optical　design　for　see-through　displays　by　incorporating　a　discrete　holographic　lens　array　behind　the　transparent　display　panel.　This　approach　enables　retinal　projection　display　(RPD)　while　achieving　a　one　dimensional　expansion　of　the　field　of　view.　RPD　is　one　of　the　most　promising　near-eye　display　techniques.　It　can　directly　converge　light　onto　the　center　of　the　pupil　and　project　the　image　directly　onto　the　retina,　effectively　reducing　the　VAC　problem.　However,　this　design　also　has　the　drawback　of　a　small　eye　box,　which　can　lead　to　a　loss　of　the　viewport　when　the　eye　rotates　significantly.　To　address　this　issue,　this　paper　proposes　a　novel　holographic　lens　array　structure,　where　three　holographic　lenses　are　horizontally　aligned　behind　the　transparent　display　panel　to　focus　the　light.　Thereby,　the　screen　light　can　be　focused　onto　the　center　of　the　pupil,　forming　three　compact　focal　points　within　the　pupil’s　range.　This　creates　a　continuous　and　complete　image　on　the　retina　while　mitigating　the　issue　of　viewpoint　loss　due　to　wide-angle　eye　rotation.　The　simulation　results　show　that　optical　structure　with　a　holographic　lens　array　enables　a　horizontal　eye　rotation　limit　of　±30°　within　a　28mm　×　8mm　display　area　and　a　focal　length　of　20mm　while　a　traditional　single　holographic　lens　only　allows　for　a　horizontal　eye　rotation　limit　of　±20°.　©　2025,　John　Wiley　and　Sons　Inc.　All　rights　reserved.