Fig. 1. Application diagram of OPOM4×8 in polarization holography. (a) Concept of polarization hologram multi-channel multiplexing, whose numerical result indicates that the unique information can only be output when PCdek=PCenk. (b) Experimental demonstration by illuminating with different input PC reference waves. The input PC reference wave that determines the reconstruction results for the Arabic numerals 1–8 corresponds respectively to the horizontal coordinates in (a).

Fig. 2. The construction of OPOM that is derived from the minimum unit, OPOM2×4, and any Hadamard matrix. Each element of the Hadamard matrix is multiplied by the factor OPOM2×4 and then individually mapped to obtain the higher-order OPOM.

Fig. 3. PCenk (k=1−8) from the OPOM4×8 with eight orthogonal pairs, each containing four polarization states. The direction of the arrow indicates the polarization angle of the polarized light. PCen1=(s,p,s,p); PCen2=(p,s,p,s); PCen3=(s,−p,s,−p); PCen4=(p,−s,p,−s); PCen5=(s,p,−s,−p); PCen6=(p,s,−p,−s); PCen7=(s,−p,−s,p); PCen8=(p,−s,−p,s).

Fig. 4. (a) Experimental setup for multi-dimensional polarization multiplexing. HWP1-HWP6, half wave plates; PBS1, PBS2, polarization beam splitters; M1-M4, mirrors; L1-L3, lenses; BS1-BS3, beam splitters; A-SLM, amplitude-based spatial light modulator; PQ/PMMA, photoinduced polymer; CCD, charge-coupled device. (b) Obtained different PCs according to the different fast axes of HWP1–HWP4.

Fig. 5. Application of OPOM4×8 in polarization holography and crosstalk analysis between channels. (a) Experimental demonstration by illuminating with different input PC reference waves [PCdek=PCenk (k=1 to 8)]. (b) Information reconstruction ratio under different PCdek illuminating the eight PCen channels.

Fig. 6. Holographic encoding of OPOM information channels for multiplexed dynamic display. (a)–(h) The results under a single PCen as the PCde; (i)–(k) the results under the PCde formed by combining three different PCen. When PCde=PCen1+PCen2+PCen3+PCen4+PCen5+PCen6+PCen7+PCen8, the entire rectangle is displayed as depicted in (i). When PCde=PCen1+PCen2+PCen3+PCen4, the left half is displayed as depicted in (j). When PCde=PCen5+PCen6+PCen7+PCen8, the right half is displayed as depicted in (k).