Quantum Nonlinear Optical Holography (QNOH) Technology - The core implementation of HOLO's QNOH technology relies on the Spontaneous Parametric Down-Conversion (SPDC) process, where a high-energy photon splits into two lower-energy entangled photons (signal and idler photons) within a nonlinear optical medium [1] - QNOH technology directly manipulates the spatial properties of entangled photon pairs by controlling the structure and material properties of the nonlinear photonic crystal, eliminating the need for complex pump light shaping [4] - The technology generates spatially entangled qudits (high-dimensional quantum systems) through the SPDC process, offering more degrees of freedom and greater potential for quantum computing and communication compared to traditional qubits [7][8] Key Innovations and Advantages - QNOH technology uses a two-dimensional patterned nonlinear photonic crystal to precisely control the spatial quantum correlations of entangled photon pairs, enabling efficient and multidimensional quantum information transmission [10][15] - The technology achieves high-dimensional quantum states by precisely controlling the design of the photonic crystal, allowing entangled photon pairs to expand into higher dimensions beyond traditional binary states [16] - Experimental verification shows that the quantum states generated by QNOH technology violate the Clauser-Horne-Shimony-Holt (CHSH) inequality, proving their entangled nature and authenticity [5] Applications in Quantum Communication and Computing - QNOH technology significantly enhances quantum key distribution (QKD) by providing higher key transmission rates and stronger resistance to interference, improving the security and efficiency of quantum communication networks [11] - The generation of qudits through QNOH technology improves the parallelism and efficiency of quantum computing, enabling more complex computational tasks and accelerating quantum algorithm execution [17] - Future applications of QNOH technology may include integration with quantum sensing, quantum imaging, quantum networks, quantum encryption, and quantum simulation [18][20] Company Overview - MicroCloud Hologram Inc (HOLO) develops and applies QNOH technology to generate spatially entangled qudits, leveraging the SPDC process in quantum optics [13] - The company provides holographic technology services, including high-precision holographic LiDAR solutions, holographic imaging solutions, and holographic digital twin technology services [22] - HOLO's holographic digital twin technology resource library captures 3D holographic shapes and objects using a combination of software, digital content, spatial data-driven science, and holographic 3D capture technology [12]
MicroCloud Hologram Inc. Develops Quantum Nonlinear Optical Holography Technology to Assist in the Generation of Spatial Entangled Qudits