Add to ORKGWe describe a method to control intensity distribution of the far-field transmission of a multimode fiber [1] demonstrating how the output wavevector could be tuned potentially enabling holographic manipulation of plasmonic resonances at the output
Over the last decade, wavefront shaping techniques with spatial light modulators have enabled the co...
This Ph.D. project aims at using wavefront shaping techniques to probe the modal content of multimod...
Recent adaptive holographic equalization experiments in multimode fiber demonstrate the advantage of...
One of the greatest challenges in utilizing multimode optical fibers is mode-mixing and inter-modal ...
Adaptive optics methods have long been used to perform complex light shaping at the output of a mult...
Holographic control of randomized light opens up new ways for imaging and manipulation. We present a...
We present a powerful approach towards full understanding of laser light propagation through multimo...
Integration of plasmonic structures on step-index optical fibers is attracting interest for both app...
We demonstrate that a structured light intensity pattern can be produced at the output of a multi-mo...
Optical waveguides form the backbone of the internet and have also been a driving technology in medi...
Multimode optical fibers have seen increasing applications in communication, imaging, high-power las...
Optical fibres are ideal for local light delivery in hard to access places due to their flexible nat...
Advances in the measurement and manipulation of light's spatiotemporal properties are overcoming man...
A fiber injection unit situated in the focal plane behind a coronagraph feeding a high resolution sp...
Over the last decade, wavefront shaping techniques with spatial light modulators have enabled the co...
This Ph.D. project aims at using wavefront shaping techniques to probe the modal content of multimod...
Recent adaptive holographic equalization experiments in multimode fiber demonstrate the advantage of...
One of the greatest challenges in utilizing multimode optical fibers is mode-mixing and inter-modal ...
Adaptive optics methods have long been used to perform complex light shaping at the output of a mult...
Holographic control of randomized light opens up new ways for imaging and manipulation. We present a...
We present a powerful approach towards full understanding of laser light propagation through multimo...
Integration of plasmonic structures on step-index optical fibers is attracting interest for both app...
We demonstrate that a structured light intensity pattern can be produced at the output of a multi-mo...
Optical waveguides form the backbone of the internet and have also been a driving technology in medi...
Multimode optical fibers have seen increasing applications in communication, imaging, high-power las...
Optical fibres are ideal for local light delivery in hard to access places due to their flexible nat...
Advances in the measurement and manipulation of light's spatiotemporal properties are overcoming man...
A fiber injection unit situated in the focal plane behind a coronagraph feeding a high resolution sp...
Over the last decade, wavefront shaping techniques with spatial light modulators have enabled the co...
This Ph.D. project aims at using wavefront shaping techniques to probe the modal content of multimod...
Recent adaptive holographic equalization experiments in multimode fiber demonstrate the advantage of...