Continuously tunable femtosecond delay-line based on liquid crystal cells

We introduce a new device for group and phase delay steering of femtosecond pulse trains that makes use of cascaded, electrically driven, nematic liquid-crystal cells. Based on this approach we demonstrate a continuously tunable optical delay line. The simple collinear implementation with no moving...

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Veröffentlicht in:Optics express 2016-06, Vol.24 (13), p.14483-14493
Hauptverfasser: Jullien, Aurélie, Bortolozzo, Umberto, Grabielle, Stéphanie, Huignard, Jean-Pierre, Forget, Nicolas, Residori, Stefania
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container_end_page 14493
container_issue 13
container_start_page 14483
container_title Optics express
container_volume 24
creator Jullien, Aurélie
Bortolozzo, Umberto
Grabielle, Stéphanie
Huignard, Jean-Pierre
Forget, Nicolas
Residori, Stefania
description We introduce a new device for group and phase delay steering of femtosecond pulse trains that makes use of cascaded, electrically driven, nematic liquid-crystal cells. Based on this approach we demonstrate a continuously tunable optical delay line. The simple collinear implementation with no moving parts enables to shape the achievable temporal range with sub-femtosecond accuracy. By appropriately choosing the bias voltages applied to the cascaded cells, the imparted group delay can be made either positive or negative and precisely adjusted. Moreover, independent control of the group delay and the phase of femtosecond pulses is demonstrated.
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title Continuously tunable femtosecond delay-line based on liquid crystal cells
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