Add to ORKGWe present an optimization procedure to improve the propagation properties of the depressed cladding, buried micro-structured waveguides formed in a z-cut lithium niobate (LN) crystal by high repetition rate femtosecond (fs) laser writing. It is shown that the propagation wavelength for which the confinement losses of ordinary (O) and extraordinary ordinary (E) polarizations are below 1 dB/cm can be optimized beyond 3 micro meter for hexagonal WG structures with seven rings of tracks
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
Optical-lattice-like WGs were fabricated in z-cut LiNbO3 by HRR pulse laser. Low propagation loss wa...
Optical-lattice-like WGs were fabricated in z-cut LiNbO3 by HRR pulse laser. Low propagation loss wa...
We study numerically depressed-cladding, buried waveguides that can be formed in a lithium niobate c...
We study numerically depressed-cladding, buried waveguides that can be formed in a lithium niobate c...
We study numerically depressed-cladding, buried waveguides that can be formed in a lithium niobate c...
We review our recent work on the numerical design and optimisation of buried, micro-structured waveg...
We review our recent work on the numerical design and optimisation of buried, micro-structured waveg...
We present a practical approach to the numerical optimisation of the guiding properties of buried mi...
Direct femtosecond laser inscription has emerged as one of the most efficient methods for direct thr...
This paper reports on buried waveguides fabricated in lithium niobate (LN) by the method of direct f...
This paper reports on buried waveguides fabricated in lithium niobate (LN) by the method of direct f...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
Optical-lattice-like WGs were fabricated in z-cut LiNbO3 by HRR pulse laser. Low propagation loss wa...
Optical-lattice-like WGs were fabricated in z-cut LiNbO3 by HRR pulse laser. Low propagation loss wa...
We study numerically depressed-cladding, buried waveguides that can be formed in a lithium niobate c...
We study numerically depressed-cladding, buried waveguides that can be formed in a lithium niobate c...
We study numerically depressed-cladding, buried waveguides that can be formed in a lithium niobate c...
We review our recent work on the numerical design and optimisation of buried, micro-structured waveg...
We review our recent work on the numerical design and optimisation of buried, micro-structured waveg...
We present a practical approach to the numerical optimisation of the guiding properties of buried mi...
Direct femtosecond laser inscription has emerged as one of the most efficient methods for direct thr...
This paper reports on buried waveguides fabricated in lithium niobate (LN) by the method of direct f...
This paper reports on buried waveguides fabricated in lithium niobate (LN) by the method of direct f...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
We report on the operational parameters that are required to fabricate buried, microstructured waveg...
Optical-lattice-like WGs were fabricated in z-cut LiNbO3 by HRR pulse laser. Low propagation loss wa...
Optical-lattice-like WGs were fabricated in z-cut LiNbO3 by HRR pulse laser. Low propagation loss wa...