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Control of ultrafast pulses in hydrogen-filled hollow-core photonic crystal fiber by Raman coherence

We present the results of an experimental and numerical investigation into temporally non-local coherent interactions between ultrashort pulses, mediated by Raman coherence, in gas-filled kagomé-style hollow-core photonic crystal fiber. A pump pulse first set up the Raman coherence, creating a refractive index grating in the gas that travels at the group velocity of the pump pulse. Varying the arrival time of a second probe pulse allows high degree of control over its evolution as it propagates along the fiber, in particular soliton self-compression and dispersive wave (DW) emission. In the experiments reported, a DW is emitted at ~300 nm, with a central frequency that oscillates with the pump-probe delay. The results demonstrate that strong Raman coherence created in broadband guiding gas-filled kagomé-PCF can be used to control the dynamics of ultrashort probe pulses, even in difficult-to-access spectral regions such as the deep and vacuum ultraviolet.

preprint2017arXivOpen access
Federico BelliAmir AbdolvandJohn C. TraversPhilip St. J. Russell
nlin.PSphysics.optics
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Federico BelliAmir AbdolvandJohn C. TraversPhilip St. J. Russell

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