Add to ORKGTi:sapphire is an attractive material for applications as a tunable or short-pulse laser and as a broadband light source in low-coherence interferometry. We investigated several methods to fabricate rib structures in sapphire that can induce channel waveguiding in Ti:sapphire planar waveguides. These methods include direct laser ablation, reactive ion etching, and ion beam implantation followed by wet chemical etching. With the latter two methods, we fabricated channels with depths of up to 1.5 µm. Reactive ion etching through laser-structured polyimide contact-masks has so far provided the best results in terms of definition and roughness of the etched structures
Due to its excellent thermal, mechanical, and optical properties, sapphire is one of the most suitab...
Titanium-doped sapphire is one of the most prominent laser materials and is appreciated for its exce...
Deposited with permission of the author. © 2002 Leigh David Morpeth.A Ti:sapphire waveguide laser i...
Ti:sapphire is an attractive material for applications as a tunable or short-pulse laser and as a br...
Ti:sapphire is an attractive material for applications as a tunable or short-pulse laser and as a br...
Sapphire is an attractive material for micro- and opto-electronic systems applications because of it...
Sapphire is an attractive material for micro- and opto-electronic systems applications because of it...
We report on the fabrication of Ti:sapphire channel waveguides. Such channel waveguides are of inter...
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created ~1.4...
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created ~ 1....
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created ~1.4...
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created [sim...
We were successful in creating 1.4µm high ribs in a Ti:Sapphire planar waveguide by reactive ion etc...
We were successful in creating 1.4-µm high ribs in a Ti:sapphire planar waveguide by reactive ion et...
Ti:sapphire is an attractive laser medium for the development of miniature lasers with widely tunabl...
Due to its excellent thermal, mechanical, and optical properties, sapphire is one of the most suitab...
Titanium-doped sapphire is one of the most prominent laser materials and is appreciated for its exce...
Deposited with permission of the author. © 2002 Leigh David Morpeth.A Ti:sapphire waveguide laser i...
Ti:sapphire is an attractive material for applications as a tunable or short-pulse laser and as a br...
Ti:sapphire is an attractive material for applications as a tunable or short-pulse laser and as a br...
Sapphire is an attractive material for micro- and opto-electronic systems applications because of it...
Sapphire is an attractive material for micro- and opto-electronic systems applications because of it...
We report on the fabrication of Ti:sapphire channel waveguides. Such channel waveguides are of inter...
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created ~1.4...
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created ~ 1....
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created ~1.4...
We report, to our knowledge, the first active channel waveguide in Ti:sapphire. We have created [sim...
We were successful in creating 1.4µm high ribs in a Ti:Sapphire planar waveguide by reactive ion etc...
We were successful in creating 1.4-µm high ribs in a Ti:sapphire planar waveguide by reactive ion et...
Ti:sapphire is an attractive laser medium for the development of miniature lasers with widely tunabl...
Due to its excellent thermal, mechanical, and optical properties, sapphire is one of the most suitab...
Titanium-doped sapphire is one of the most prominent laser materials and is appreciated for its exce...
Deposited with permission of the author. © 2002 Leigh David Morpeth.A Ti:sapphire waveguide laser i...