TY - JOUR
T1 - Quasi phase matching in two-dimensional nonlinear photonic crystals
AU - Arie, Ady
AU - Habshoosh, Nili
AU - Bahabad, Alon
N1 - Funding Information:
This work was partly supported by the Israel Science Foundation, grant no. 960/05.
PY - 2007/3
Y1 - 2007/3
N2 - We analyze quasi-phase-matched (QPM) conversion efficiency of the five possible types of periodic two-dimensional nonlinear structures: Hexagonal, square, rectangular, centered-rectangular, and oblique. The frequency conversion efficiency, as a function of the two-dimensional quasi-phase-matching order, is determined for the general case. Furthermore, it is demonstrated for two basic feasible motifs, a circular motif and a rectangular motif. This enables to determine the optimal motif dimensions for achieving the highest conversion efficiency. We find that a rectangular motif is more efficient than a circular motif for quasi-phase-matched processes that rely on a single reciprocal lattice vector (RLV), and that under optimal choice of motif dimensions, it converges into a one-dimensional periodic structure. In addition, in a few specific cases we found that higher order QPM can be significantly more efficient than lower order QPM.
AB - We analyze quasi-phase-matched (QPM) conversion efficiency of the five possible types of periodic two-dimensional nonlinear structures: Hexagonal, square, rectangular, centered-rectangular, and oblique. The frequency conversion efficiency, as a function of the two-dimensional quasi-phase-matching order, is determined for the general case. Furthermore, it is demonstrated for two basic feasible motifs, a circular motif and a rectangular motif. This enables to determine the optimal motif dimensions for achieving the highest conversion efficiency. We find that a rectangular motif is more efficient than a circular motif for quasi-phase-matched processes that rely on a single reciprocal lattice vector (RLV), and that under optimal choice of motif dimensions, it converges into a one-dimensional periodic structure. In addition, in a few specific cases we found that higher order QPM can be significantly more efficient than lower order QPM.
KW - Nonlinear frequency conversion
KW - Nonlinear photonic crystals
KW - Quasi phase matching
KW - Second harmonic generation
UR - http://www.scopus.com/inward/record.url?scp=36049046044&partnerID=8YFLogxK
U2 - 10.1007/s11082-007-9102-8
DO - 10.1007/s11082-007-9102-8
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AN - SCOPUS:36049046044
SN - 0306-8919
VL - 39
SP - 361
EP - 375
JO - Optical and Quantum Electronics
JF - Optical and Quantum Electronics
IS - 4-6
ER -