Abstract
Nonlinear holography has recently emerged as a novel tool to reconstruct the encoded information at a new wavelength, which has important applications in optical display and optical encryption. However, this scheme still struggles with low conversion efficiency and ineffective multiplexing. In this work, we demonstrate a quasi-phase-matching (QPM) -division multiplexing holography in a three-dimensional (3D) nonlinear photonic crystal (NPC). 3D NPC works as a nonlinear hologram, in which multiple images are distributed into different Ewald spheres in reciprocal space. The reciprocal vectors locating in a given Ewald sphere are capable of fulfilling the complete QPM conditions for the high-efficiency reconstruction of the target image at the second-harmonic (SH) wave. One can easily switch the reconstructed SH images by changing the QPM condition. The multiplexing capacity is scalable with the period number of 3D NPC. Our work provides a promising strategy to achieve highly efficient nonlinear multiplexing holography for high-security and high-density storage of optical information.
Highlights
Quasi-phase-matching (QPM) theory has boosted the development of nonlinear optics for decades because it can significantly enhance the conversion efficiency of nonlinear optical processes[1]
The QPM condition is completely fulfilled in such 3D nonlinear photonic crystal (NPC), i.e., ~k2ω À 2~kω À G~ 1⁄4 0
B 875 nm Discussion It has been predicted that 3D NPCs can have unprecedented applications in nonlinear holography, nonlinear multiplexing, and multidimensional entanglement[40,41]
Summary
Quasi-phase-matching (QPM) theory has boosted the development of nonlinear optics for decades because it can significantly enhance the conversion efficiency of nonlinear optical processes[1]. 2D NPC is the popular platform to realize nonlinear holography[24,30,31]. It can only provide 2D modulation of nonlinear interacting waves, which severely limits the performance of nonlinear holography. The typical conversion efficiency of the reported nonlinear holography is 10-6 or less[33]. Another key issue in demonstrating nonlinear holography is its ineffective multiplexing/demultiplexing capability. The multiplexing capacity, as well as the conversion efficiency, need to be significantly enhanced for practical applications
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