Optically isotropic fast phase modulation in 3D blue phase photonic crystals.
Tomasz Jankowski, Eva Oton, Noureddine Bennis, Anna Pakuła, Przemysław Morawiak, Wiktor Piecek
Abstract
Open AccessBlue Phase (BP) liquid crystals are self-assembled 3D photonic structures that uniquely combine optical isotropy with ultrafast electro-optical switching. Their cubic symmetry enables polarization-independent behavior, while sub-millisecond response times make them highly attractive for dynamic photonic applications. However, their practical use has typically been limited by their tendency to form disordered polycrystalline domains, resulting in scattering and poor optical performance. In this work, we realized large-area monocrystalline BP structures with a photonic stopband positioned entirely outside the visible range. This eliminates structural coloration and enables a fully transparent, broadband operation without parasitic reflection. The cubic symmetry ensures the system remains optically isotropic, supporting polarization-independent modulation. We demonstrate a fast phase modulator based on this monocrystalline BP platform. The device achieves phase modulation with sub-millisecond response times and polarization independence, representing a significant advancement over traditional LCs. Our findings position monocrystalline BPs as a robust and versatile platform for reconfigurable optics. The combination of fast response, polarization independence, and optical transparency opens new pathways for advanced applications in adaptive optics, beam steering, dynamic holography, and transparent optical systems such as AR/VR and laser-based technologies.