论文信息 - Frequency conversion in free-standing periodically oriented gallium nitride

Frequency conversion in free-standing periodically oriented gallium nitride

Gallium nitride’s (GaN) material properties of broadband transparency, high thermal conductivity, and wide-band gap make it a promising candidate for high-power frequency conversion devices. The strong internal polarization of GaN leads to large second-order nonlinearity, but conventional phase matching is prevented due to weak birefringence. To obtain efficient nonlinear optic frequency conversion, patterned inversion growth has been developed to induce quasiphase matching (QPM). We have fabricated and tested periodically oriented GaN (PO-GaN) devices to obtain QPM frequency conversion. This report discusses our recent measurements of second harmonic generation resonances for these devices.

[1] Manish Bhardwaj,et al. Second-harmonic generation in periodically poled GaN , 2003 .

[2] Fritz J. Kub,et al. GaN vertical and lateral polarity heterostructures on GaN substrates , 2011 .

[3] Jaime A. Freitas,et al. Development of periodically oriented gallium nitride for non-linear optics [Invited] , 2012 .

[4] Martin M. Fejer,et al. Recent advances in crystal optics/Avancées récentes en optique cristalline Quasi-phasematching , 2007 .

[5] Joseph A. Miragliotta,et al. Linear- and nonlinear-optical properties of GaN thin films , 1993 .

[6] G. Gurzadyan,et al. Handbook of nonlinear optical crystals , 1991 .

[7] H. Shibata,et al. High Thermal Conductivity of Gallium Nitride (GaN) Crystals Grown by HVPE Process , 2007 .

[8] Jennifer K. Hite,et al. Role of growth parameters in equalizing simultaneous growth of N‐ and Ga‐polar GaN by MOCVD , 2014 .

[9] Makoto Abe,et al. Accurate measurement of quadratic nonlinear-optical coefficients of gallium nitride , 2010 .