toney teddy fernandez
Macquarie University
H-index: 29
Oceania-Australia
Top articles of toney teddy fernandez
Low-loss ultrafast laser inscribed photonics for space-division-multiplexed optical networks
2024/3/13
Low Bend Loss, High Index, Composite Morphology Ultra-fast Laser Written Waveguides for Photonic Integrated Circuits
arXiv preprint arXiv:2401.03382
2024/1/7
Aluminosilicate glass
2023/8/17
Application of Spectral Cathodoluminescence to Multi-Modal Research at the Nano-Scale: Case Studies from the UNSW Electron Microscope Unit
2023/8/1
Femtosecond laser-written waveguides and couplers for integrated mid-infrared photonic devices
2023/6/26
FBG-stabilized Dysprosium: fluoroindate mid-infrared fiber laser
2023/6/26
Towards the development of mid-infrared all-integrated fiber laser systems for drone-based remote sensing
2023/6/26
'Designer Glasses' for Ultrafast Laser-Inscribed Low-Loss Optical Waveguides
2023/6/26
Thermally stable high numerical aperture integrated waveguides and couplers for the 3 μm wavelength range
APL Photonics
2022/12/1
Ultrafast laser inscribed waveguides in tailored fluoride glasses: An enabling technology for mid-infrared integrated photonics devices
Scientific Reports
2022/8/29
Femtosecond laser-inscribed mid-infrared fiber Bragg gratings with enhanced thermal stability
2022/7/24
Mid-IR tunable CW and passively Q-switched laser operation of Dy-doped fluoride fiber
Optical Materials Express
2022/4/1
Quantitative morphology of femtosecond laser-written point-by-point optical fiber Bragg gratings
Optics Letters
2022/2/1
Designer glasses—Future of photonic device platforms
Advanced Functional Materials
2022/1
High performing designer glass platform to host versatile photonic devices
APL Materials
2021/12/1
Material
2006/4/11
Record-high positive refractive index change in bismuth germanate crystals through ultrafast laser enhanced polarizability
Scientific Reports
2020/9/15
Optical waveguide fabrication for the mid-infrared in fluorophosphate glasses
2020/8/2
Femtosecond laser direct-written fiber Bragg gratings with high reflectivity and low loss at wavelengths beyond 4 µm
Optics letters
2020/8/1