We demonstrate that twisted solid-core PCF develops strongly enhanced optical activity and circular dichroism in the vicinity of orbital angular momentum resonances in the cladding. It may be used as a circular polarizer
Light may carry both orbital angular momentum (AM) and spin AM. The former is a consequence of its h...
Solid-core photonic crystal fiber (PCF) with a permanent helical twist exhibits dips in its transmis...
Polarized light is a phenomenon familiar to anyone with a pair of polaroid sunglasses. Optical compo...
We demonstrate that twisted solid-core PCF develops strongly enhanced optical activity and circular ...
In this Letter we show that, in spectral regions where there are no orbital cladding resonances to c...
In this Letter we show that, in spectral regions where there are no orbital cladding resonances to c...
We demonstrate experimentally and theoretically that the core-guided mode in helically twisted photo...
We report a series of experimental, analytical, and numerical studies demonstrating strong circular ...
Spiral twisting offers additional opportunities for controlling the loss, dispersion, and polarizati...
Spiral twisting offers additional opportunities for controlling the loss, dispersion, and polarizati...
In optical fiber telecommunications, there is much current work on the use of orbital angular moment...
Recent theoretical and experimental work on helically twisted photonic crystal fibres (PCFs) is revi...
Using orbital angular momentum (OAM) as a spatial information channel attracts a lot of attention du...
Helically twisted solid-core photonic crystal fibers (PCFs) are experimentally and theoretically inv...
Twisted photonic crystal fibre (PCF) supports novel helical Bloch modes that uniquely display OAM (o...
Light may carry both orbital angular momentum (AM) and spin AM. The former is a consequence of its h...
Solid-core photonic crystal fiber (PCF) with a permanent helical twist exhibits dips in its transmis...
Polarized light is a phenomenon familiar to anyone with a pair of polaroid sunglasses. Optical compo...
We demonstrate that twisted solid-core PCF develops strongly enhanced optical activity and circular ...
In this Letter we show that, in spectral regions where there are no orbital cladding resonances to c...
In this Letter we show that, in spectral regions where there are no orbital cladding resonances to c...
We demonstrate experimentally and theoretically that the core-guided mode in helically twisted photo...
We report a series of experimental, analytical, and numerical studies demonstrating strong circular ...
Spiral twisting offers additional opportunities for controlling the loss, dispersion, and polarizati...
Spiral twisting offers additional opportunities for controlling the loss, dispersion, and polarizati...
In optical fiber telecommunications, there is much current work on the use of orbital angular moment...
Recent theoretical and experimental work on helically twisted photonic crystal fibres (PCFs) is revi...
Using orbital angular momentum (OAM) as a spatial information channel attracts a lot of attention du...
Helically twisted solid-core photonic crystal fibers (PCFs) are experimentally and theoretically inv...
Twisted photonic crystal fibre (PCF) supports novel helical Bloch modes that uniquely display OAM (o...
Light may carry both orbital angular momentum (AM) and spin AM. The former is a consequence of its h...
Solid-core photonic crystal fiber (PCF) with a permanent helical twist exhibits dips in its transmis...
Polarized light is a phenomenon familiar to anyone with a pair of polaroid sunglasses. Optical compo...
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