Belangrijkste concepten
Demonstration of a monocrystalline titanium:sapphire-on-insulator (Ti:SaOI) photonics platform that enables dramatic miniaturization, cost reduction, and scalability of titanium:sapphire laser technology.
Samenvatting
The content describes the development of a titanium:sapphire-on-insulator (Ti:SaOI) photonics platform that enables significant advancements in titanium:sapphire laser technology. Key highlights:
- Fabrication of low-loss whispering-gallery-mode resonators, realizing a Ti:sapphire laser with an ultralow, sub-milliwatt lasing threshold.
- Improved mode confinement in Ti:SaOI waveguides, enabling an integrated solid-state (non-semiconductor) optical amplifier operating below 1 μm wavelength. This amplifier demonstrates distortion-free amplification of picosecond pulses to peak powers reaching 1.0 kW.
- Demonstration of a tunable integrated Ti:sapphire laser that can be pumped with low-cost, miniature, off-the-shelf green laser diodes.
- Use of a Ti:SaOI laser array as the sole optical control for a cavity quantum electrodynamics experiment with artificial atoms in silicon carbide.
The platform enables a three-orders-of-magnitude reduction in cost and footprint of Ti:sapphire technology, democratizing its use and introducing solid-state broadband amplification of sub-micron wavelength light.
Statistieken
Lasing threshold of Ti:sapphire laser: sub-milliwatt
Peak power of amplified picosecond pulses: 1.0 kW
Citaten
"This work is a key step towards the democratization of Ti:sapphire technology through a three-orders-of-magnitude reduction in cost and footprint and introduces solid-state broadband amplification of sub-micron wavelength light."