Add to ORKGBuried, stacked planar and channel waveguides in sapphire and Ti:sapphire are fabricated by proton implantation. Flexibility of the fabrication technique and good control over the implantation parameters result in variable design and excellent light confinement
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...
Deposited with permission of the author. © 2002 Leigh David Morpeth.A Ti:sapphire waveguide laser i...
Buried planar and channel waveguides are demonstrated in proton implanted sapphire and Ti:sapphire. ...
Buried, stacked planar, and channel waveguides fabricated by proton implantation into sapphire are d...
Buried and stacked planar as well as buried single and parallel channel waveguides are fabricated in...
We report low-order transverse-mode planar waveguides in sapphire fabricated for the first time by p...
Due to its excellent thermal, mechanical, and optical properties, sapphire is one of the most suitab...
Laser emission near 780 nm with 2 mW output power and 3.3% slope efficiency from a Ti:sapphire burie...
Laser emission near 780 nm with 2 mW output power and 3.3% slope efficiency from a Ti:sapphire burie...
1.1-MeV proton-implanted sapphire waveguides are investigated for the first time. Optical measuremen...
Continuous laser emission near 780 nm was demonstrated in proton-implantated Ti:sapphire buried chan...
Continuous laser emission near 780nm was demonstrated in proton-implantated Ti:sapphire buried chann...
Fabrication and laser operation of proton-implanted Ti:sapphire buried channel waveguides is reporte...
Fabrication and laser operation of proton-implanted Ti:sapphire buried channel waveguides is reporte...
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...
Deposited with permission of the author. © 2002 Leigh David Morpeth.A Ti:sapphire waveguide laser i...
Buried planar and channel waveguides are demonstrated in proton implanted sapphire and Ti:sapphire. ...
Buried, stacked planar, and channel waveguides fabricated by proton implantation into sapphire are d...
Buried and stacked planar as well as buried single and parallel channel waveguides are fabricated in...
We report low-order transverse-mode planar waveguides in sapphire fabricated for the first time by p...
Due to its excellent thermal, mechanical, and optical properties, sapphire is one of the most suitab...
Laser emission near 780 nm with 2 mW output power and 3.3% slope efficiency from a Ti:sapphire burie...
Laser emission near 780 nm with 2 mW output power and 3.3% slope efficiency from a Ti:sapphire burie...
1.1-MeV proton-implanted sapphire waveguides are investigated for the first time. Optical measuremen...
Continuous laser emission near 780 nm was demonstrated in proton-implantated Ti:sapphire buried chan...
Continuous laser emission near 780nm was demonstrated in proton-implantated Ti:sapphire buried chann...
Fabrication and laser operation of proton-implanted Ti:sapphire buried channel waveguides is reporte...
Fabrication and laser operation of proton-implanted Ti:sapphire buried channel waveguides is reporte...
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...
Deposited with permission of the author. © 2002 Leigh David Morpeth.A Ti:sapphire waveguide laser i...