@article{32088, abstract = {{Subwavelength dielectric resonators assembled into metasurfaces have become a versatile tool for miniaturizing optical components approaching the nanoscale. An important class of metasurface functionalities is associated with asymmetry in both the generation and transmission of light with respect to reversals of the positions of emitters and receivers. The nonlinear light–matter interaction in metasurfaces offers a promising pathway towards miniaturization of the asymmetric control of light. Here we demonstrate asymmetric parametric generation of light in nonlinear metasurfaces. We assemble dissimilar nonlinear dielectric resonators into translucent metasurfaces that produce images in the visible spectral range on being illuminated by infrared radiation. By design, the metasurfaces produce different and completely independent images for the reversed direction of illumination, that is, when the positions of the infrared emitter and the visible light receiver are exchanged. Nonlinearity-enabled asymmetric control of light by subwavelength resonators paves the way towards novel nanophotonic components via dense integration of large quantities of nonlinear resonators into compact metasurface designs.}}, author = {{Kruk, Sergey S. and Wang, Lei and Sain, Basudeb and Dong, Zhaogang and Yang, Joel and Zentgraf, Thomas and Kivshar, Yuri}}, issn = {{1749-4885}}, journal = {{Nature Photonics}}, keywords = {{Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials}}, pages = {{561–565}}, publisher = {{Springer Science and Business Media LLC}}, title = {{{Asymmetric parametric generation of images with nonlinear dielectric metasurfaces}}}, doi = {{10.1038/s41566-022-01018-7}}, volume = {{16}}, year = {{2022}}, } @article{38090, author = {{Bussières, Félix and Clausen, Christoph and Tiranov, Alexey and Korzh, Boris and Verma, Varun B. and Nam, Sae Woo and Marsili, Francesco and Ferrier, Alban and Goldner, Philippe and Herrmann, Harald and Silberhorn, Christine and Sohler, Wolfgang and Afzelius, Mikael and Gisin, Nicolas}}, issn = {{1749-4885}}, journal = {{Nature Photonics}}, keywords = {{Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials}}, number = {{10}}, pages = {{775--778}}, publisher = {{Springer Science and Business Media LLC}}, title = {{{Quantum teleportation from a telecom-wavelength photon to a solid-state quantum memory}}}, doi = {{10.1038/nphoton.2014.215}}, volume = {{8}}, year = {{2014}}, } @article{26045, author = {{Aasi, J. and Abadie, J. and Abbott, B. 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A. and Vass, S. and Vaulin, R. and Vecchio, A. and Veitch, P. J. and Veitch, J. and Venkateswara, K. and Verma, S. and Vincent-Finley, R. and Vitale, S. and Vo, T. and Vorvick, C. and Vousden, W. D. and Vyatchanin, S. P. and Wade, A. and Wade, L. and Wade, M. and Waldman, S. J. and Wallace, L. and Wan, Y. and Wang, M. and Wang, J. and Wang, X. and Wanner, A. and Ward, R. L. and Was, M. and Weinert, M. and Weinstein, A. J. and Weiss, R. and Welborn, T. and Wen, L. and Wessels, P. and West, M. and Westphal, T. and Wette, K. and Whelan, J. T. and Whitcomb, S. E. and Wiseman, A. G. and White, D. J. and Whiting, B. F. and Wiesner, K. and Wilkinson, C. and Willems, P. A. and Williams, L. and Williams, R. and Williams, T. and Willis, J. L. and Willke, B. and Wimmer, M. and Winkelmann, L. and Winkler, W. and C. Wipf, C. and Wittel, H. and Woan, G. and Wooley, R. and Worden, J. and Yablon, J. and Yakushin, I. and Yamamoto, H. and Yancey, C. C. and Yang, H. and Yeaton-Massey, D. and Yoshida, S. and Yum, H. and Zanolin, M. and Zhang, F. and Zhang, L. and Zhao, C. and Zhu, H. and Zhu, X. J. and Zotov, N. and Zucker, M. E. and Zweizig, J.}}, issn = {{1749-4885}}, journal = {{Nature Photonics}}, pages = {{613--619}}, title = {{{Enhanced sensitivity of the LIGO gravitational wave detector by using squeezed states of light}}}, doi = {{10.1038/nphoton.2013.177}}, year = {{2013}}, } @article{4547, abstract = {{The coherent state manipulation of single quantum systems is a fundamental requirement for the implementation of quantum information processors. Exciton qubits are of particular interest for coherent optoelectronic applications, in particular due to their excellent coupling to photons. Until now, coherent manipulations of exciton qubits in semiconductor quantum dots have been performed predominantly by pulsed laser fields. Coherent control of the population of excitonic states with a single laser pulse, observed by Rabi oscillations, has been demonstrated by several groups using different techniques1,2,3. By using two laser pulses, more general state control can be achieved4, and coupling of two excitons has been reported5,6. Here, we present a conceptually new approach for implementing the coherent control of an exciton two-level system (qubit) by means of a time-dependent electric interaction. The new scheme makes use of an optical clock signal and a synchronous electric gate signal, which controls the coherent manipulation.}}, author = {{Michaelis de Vasconcellos, S. and Gordon, S. and Bichler, M. and Meier, Torsten and Zrenner, Artur}}, issn = {{1749-4885}}, journal = {{Nature Photonics}}, number = {{8}}, pages = {{545--548}}, publisher = {{Springer Nature}}, title = {{{Coherent control of a single exciton qubit by optoelectronic manipulation}}}, doi = {{10.1038/nphoton.2010.124}}, volume = {{4}}, year = {{2010}}, }