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Publication - Dr Henkjan Gersen

    Ultrafast evolution of photonic eigenstates in k-space

    Citation

    Engelen, R, Sugimoto, Y, Gersen, H, Ikeda, N, Asakawa, K & Kuipers, L, 2007, ‘Ultrafast evolution of photonic eigenstates in k-space’. Nature Physics, vol 3., pp. 401 - 405

    Abstract

    Periodic structures have a large influence on propagating waves. This holds for various types of waves over a large range of length scales: from electrons in atomic crystals and light in photonic crystals to acoustic waves in sonic crystals. The eigenstates of these waves are best described with a band structure, which represents the relation between the energy and the wavevector (k). This relation is usually not straightforward: owing to the imposed periodicity, bands are folded into every Brillouin zone, inducing splitting of bands and the appearance of bandgaps. As a result, exciting phenomena such as negative refraction, auto-collimation of waves and low group velocities arise. k-space investigations of electronic eigenstates have already yielded new insights into the behaviour of electrons at surfaces and in novel materials. However, for a complete characterization of a structure, an understanding of the mutual coupling of eigenstates is also essential. Here, we investigate the propagation of light pulses through a photonic crystal structure using a near-field microscope. Tracking the evolution of the photonic eigenstates in both k-space and time allows us to identify individual eigenstates and to uncover their dynamics and coupling to other eigenstates on femtosecond timescales even when co-localized in real space and time.

    Full details in the University publications repository