Modeling of frequency doubling and tripling with converter refractive index spatial nonuniformities due to gravitational sag

@inproceedings{Auerbach1999ModelingOF,
  title={Modeling of frequency doubling and tripling with converter refractive index spatial nonuniformities due to gravitational sag},
  author={Jerome M. Auerbach and Charles E. Barker and Scott A. Couture and David Eimerl and Jim J. Deyoreo and Lloyd A. Hackel and Robin L. Hibbard and Lisa W. Liou and Mary A. Norton and S. A. Perfect and Paul J. Wegner},
  booktitle={Other Conferences},
  year={1999}
}
  • Jerome M. Auerbach, Charles E. Barker, +8 authors Paul J. Wegner
  • Published in Other Conferences 1999
  • Materials Science, Engineering
  • Accurate predictions of the performance of frequency conversion requires knowledge of the spatial variation of departures from the phase-matching condition in the converter crystals. This variation is caused by processes such as crystal growth and crystal surface finishing. Gravitational sag and mounting configurations also lead to deformation and stresses which cause spatially varying departures from the phase-matching condition. We have modeled the effect of gravitational forces on conversion… CONTINUE READING

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