Add to ORKGHigher-order modes are controllably excited in water-filled kagomè-, bandgap-style, and simplified hollow-core photonic crystal fibers (HC-PCF). A spatial light modulator is used to create amplitude and phase distributions that closely match those of the fiber modes, resulting in typical launch efficiencies of 10–20% into the liquid-filled core. Modes, excited across the visible wavelength range, closely resemble those observed in air-filled kagomè HC-PCF and match numerical simulations. These results provide a framework for spatially-resolved sensing in HC-PCF microreactors and fiber-based optical manipulation
Photonic crystal fibres (PCFs) have important applications in sensing the optical properties of flui...
We review the recent progress on the understanding of optical guidance mechanisms in hollow-core pho...
We report a method for amplifying higher-order guided modes, synthesized with a spatial light modula...
Higher-order modes are controllably excited in water-filled kagomè-, bandgap-style, and simplified h...
Higher-order modes up to LP33 are controllably excited in water-filled kagomé- and bandgap-style hol...
Higher-order modes up to LP33 are controllably excited in water-filled kagomé- and bandgap-style hol...
We present a versatile method for selective mode coupling into higher-order modes of photonic crysta...
Since their inception, about 20 years ago, hollow-core photonic crystal fiber and its gas-filled for...
We present the first detailed investigation of modal properties in hypocycloid Kagomé fibers; even w...
Hollow-core photonic crystal fiber (HC-PCF) confines and guides light in its hollow core. When a di...
A method to fabricate all-in-fiber liquid microcells has been demonstrated which allows for the inco...
We review the use of hollow-core photonic crystal fibers (PCFs) in the field of ultrafast gas-based ...
Prism-coupling through the microstructured cladding is used to selectively excite individual higher ...
A hollow-core single-ring photonic crystal fiber (SR-PCF) consists of a ring of capillaries arranged...
Understanding cladding properties is crucial for designing microstructured optical fibers. This is p...
Photonic crystal fibres (PCFs) have important applications in sensing the optical properties of flui...
We review the recent progress on the understanding of optical guidance mechanisms in hollow-core pho...
We report a method for amplifying higher-order guided modes, synthesized with a spatial light modula...
Higher-order modes are controllably excited in water-filled kagomè-, bandgap-style, and simplified h...
Higher-order modes up to LP33 are controllably excited in water-filled kagomé- and bandgap-style hol...
Higher-order modes up to LP33 are controllably excited in water-filled kagomé- and bandgap-style hol...
We present a versatile method for selective mode coupling into higher-order modes of photonic crysta...
Since their inception, about 20 years ago, hollow-core photonic crystal fiber and its gas-filled for...
We present the first detailed investigation of modal properties in hypocycloid Kagomé fibers; even w...
Hollow-core photonic crystal fiber (HC-PCF) confines and guides light in its hollow core. When a di...
A method to fabricate all-in-fiber liquid microcells has been demonstrated which allows for the inco...
We review the use of hollow-core photonic crystal fibers (PCFs) in the field of ultrafast gas-based ...
Prism-coupling through the microstructured cladding is used to selectively excite individual higher ...
A hollow-core single-ring photonic crystal fiber (SR-PCF) consists of a ring of capillaries arranged...
Understanding cladding properties is crucial for designing microstructured optical fibers. This is p...
Photonic crystal fibres (PCFs) have important applications in sensing the optical properties of flui...
We review the recent progress on the understanding of optical guidance mechanisms in hollow-core pho...
We report a method for amplifying higher-order guided modes, synthesized with a spatial light modula...