[[abstract]]This work demonstrates the feasibility of reducing pulse broadening by using liquid crystal achromatic half and quarter wave plates for ultrafast pulsed lasers. Each wave plate is made of two and three liquid crystal cells stacked together. Total phase retardation and its broadening reducing of the achromatic half wave plate have been measured. The experimental results are in good agreement with theoretical calculation.[[fileno]]2010144010189[[department]]物理
A system using two quarter-wave retarders and two ferroelectric liquid-crystal devices is described ...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
The design and operation of a high-resolution spectral phase shaper with a footprint of only 7×10 c...
Abstract—We report pulse shaping experiments in the 20-fs range using a 512-element phase-only liqui...
The chemical reaction controls with laser lights are one of the most important subjects of chemistry...
Liquid crystals can be photoaligned with a single nanosecond pulse acting on thin photoanisotropic c...
Liquid crystals can be photoaligned with a single nanosecond pulse acting on thin photoanisotropic c...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
The performance of liquid crystal (LC) spatial light modulators depends critically on the amount of ...
A system using two quarter-wave retarders and two ferroelectric liquid-crystal devices is described ...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
A system using two quarter-wave retarders and two ferroelectric liquid-crystal devices is described ...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
The design and operation of a high-resolution spectral phase shaper with a footprint of only 7×10 c...
Abstract—We report pulse shaping experiments in the 20-fs range using a 512-element phase-only liqui...
The chemical reaction controls with laser lights are one of the most important subjects of chemistry...
Liquid crystals can be photoaligned with a single nanosecond pulse acting on thin photoanisotropic c...
Liquid crystals can be photoaligned with a single nanosecond pulse acting on thin photoanisotropic c...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
International audienceWe demonstrate the ability to manipulate ultrashort pulses in cholesteric liqu...
The performance of liquid crystal (LC) spatial light modulators depends critically on the amount of ...
A system using two quarter-wave retarders and two ferroelectric liquid-crystal devices is described ...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
A system using two quarter-wave retarders and two ferroelectric liquid-crystal devices is described ...
We designed a broadband quarter wave plate in the visible range using a twisted nematic liquid cryst...
The design and operation of a high-resolution spectral phase shaper with a footprint of only 7×10 c...
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