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Since the inception of the idea of temporal solitons in optical fibres, published in 1973, the concept of optical solitons has revolutionized the fundamental science of optics and photonics technologies. This Perspective gives an outlook on the future of solitons in ultrafast lasers, frequency combs, biomedical applications, telecommunications and signal processing, as well as the emerging new science of solitons.
Progress in the field of quantum-photonics applications of metasurfaces is reviewed. Cutting-edge research, including the development of optical chips supporting high-dimensional quantum entanglement and advanced quantum tomography, is summarized.
The parameters and issues that affect the accuracy of fluorescence molecular imaging are discussed and a means for ensuring reliable reproduction of the fluorescence signals in biological tissue is proposed.