The HoloWS project has pushed the frontiers of holographic display research forward in a numerous ways.
The new competencies that have been acquired during the project have a strong and relevant impact on the ER career prospects. The HoloWS project itself allowed the ER to improve the quality of the research profile and obtain innovative findings regarding real-life dynamics of functioning. The project provided a parallel broadening of his career profile, previously focused on academia, to collaborations with social stakeholders in the development of innovative programs of holography via new technologies.
The project has prepared six articles for international peer-reviewed journals. First, the disordered holography framework was proposed to generate important conceptual advances and clear guidelines for future empirical research. Therefore, we prepared a theoretical paper disseminating this approach in detail. Second, findings derived from the project were reported through several empirical articles. Three manuscripts have been published in Applied Optics and ensure open access, following the Horizon 2020 guidelines (through open access journals and/or through the online UCM repository, as well as wider accessibility of pre-prints via posting, when adequate, in ResearchGate, Academia, and Google Scholar). Two prepared papers are as follows: High space-bandwidth-product (SBP) hologram carriers towards photorealistic 3D holography and Wide-spectrum three-dimensional near-field geometric phase metasurface holography.
In the aspect of dissemination of research findings in international conferences, the ER participated in symposiums of the most relevant scientific conferences in the photonics field. In 2022, The ER attended the digital holography and three-dimensional imaging topical meeting at Cambridge University, Cambridge, UK. The conference paper is as follows.
A Correction Method for Focus Distortion Existed in SLM-based Holographic Vector Pattern Generation System for Optical Storage in Glass. In Digital Holography and Three-Dimensional Imaging (pp. Th3A-2). Optica Publishing Group, 2022, August.
Moreover, the project organized a seminar for the host lab and other young researchers on advanced techniques of CGH (with the added value of potentially designing additional lab experiments). The ER has also reported the related holographic displays for interested undergraduate assistants in the UCM student community via the website of the Faculty of the Department of Optics.