Add to ORKGAbstract: Index-guiding, hollow-core photonic crystal fibers whose core and cladding have been filled with different liquids are theoretically and experimentally demonstrated. These waveguides present a single-mode operation and applicability in sensing and nonlinear optics of liquids. © Optical Society of America OCIS codes: (230.3990) Microstructure devices; (060.2370) Fiber optics sensors; (230.1150) All-optical devices
This paper proposes the design and optimization of microstructure optical fiber for liquid sensing a...
Transmission-band shifting via refractive index scaling using liquid-filled hollow core photonic cry...
© 2018 SPIE. Higher-order modes are controllably excited in water-filled kagomè-, bandgap-style, and...
We demonstrate the first soft-glass hollow core photonic crystal fiber. The fiber is made from a hig...
We present a simple refractive index sensor based on a step-index fiber with a hollow micro-channel ...
Photonic crystal fibers guide light by corralling it within a periodic array of microscopic air hole...
We report a new family of hollow-core photonic crystal fibers with embedded metal wires for sensitiv...
The inception of photonic crystal fibers (PCFs) allowed for unprecedented tailoring of waveguide pro...
Photonic crystal fibres (PCFs) have important applications in sensing the optical properties of flui...
International audienceWe show that high efficiency stimulated Raman scattering can be obtained using...
A novel liquid-infiltrated photonic crystal fiber model applicable in liquid sensing for different t...
A design of the highly non-linear and ultra-sensitive modified core of a photonic crystal fiber (PCF...
In this paper, a highly sensible photonic crystal fiber based on a modified hexagonal structure has ...
The combination of integrated optics and microfluidics in planar optofluidic devices carries the pot...
Higher-order modes up to LP33 are controllably excited in water-filled kagomé- and bandgap-style hol...
This paper proposes the design and optimization of microstructure optical fiber for liquid sensing a...
Transmission-band shifting via refractive index scaling using liquid-filled hollow core photonic cry...
© 2018 SPIE. Higher-order modes are controllably excited in water-filled kagomè-, bandgap-style, and...
We demonstrate the first soft-glass hollow core photonic crystal fiber. The fiber is made from a hig...
We present a simple refractive index sensor based on a step-index fiber with a hollow micro-channel ...
Photonic crystal fibers guide light by corralling it within a periodic array of microscopic air hole...
We report a new family of hollow-core photonic crystal fibers with embedded metal wires for sensitiv...
The inception of photonic crystal fibers (PCFs) allowed for unprecedented tailoring of waveguide pro...
Photonic crystal fibres (PCFs) have important applications in sensing the optical properties of flui...
International audienceWe show that high efficiency stimulated Raman scattering can be obtained using...
A novel liquid-infiltrated photonic crystal fiber model applicable in liquid sensing for different t...
A design of the highly non-linear and ultra-sensitive modified core of a photonic crystal fiber (PCF...
In this paper, a highly sensible photonic crystal fiber based on a modified hexagonal structure has ...
The combination of integrated optics and microfluidics in planar optofluidic devices carries the pot...
Higher-order modes up to LP33 are controllably excited in water-filled kagomé- and bandgap-style hol...
This paper proposes the design and optimization of microstructure optical fiber for liquid sensing a...
Transmission-band shifting via refractive index scaling using liquid-filled hollow core photonic cry...
© 2018 SPIE. Higher-order modes are controllably excited in water-filled kagomè-, bandgap-style, and...