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Nonlinear optical properties
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, ch. 1.7, pp. 181-222 [ doi:10.1107/97809553602060000906 ]
... Jerphagnon et al. (1978) and more recently revived by Brasselet & Zyss (1998) in the realm of molecular-engineering studies, is particularly ... increase with frequency (Hadni, 1967):If [omega]i or [omega]j are near an absorption peak, even weak, n±([omega]i) can be greater than n±([omega]j); this is called abnormal dispersion. The dielectric displacements , the ...

The main nonlinear crystals
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, Section 1.7.5, pp. 217-219 [ doi:10.1107/97809553602060000906 ]
... d36 = 23 ± 3pmV-1 at 1.06µm OPA: G = 103 (j), (k), (l), (m), (n) r41 = 3.6 ± 0.6pmV-1 at 632.8nm ... pump: 2.3MWcm-2 (60ns, 10Hz). Yield: 4.5%, IRoutput 90µJ 2A5NPDP At 1.34µm: d33 = 12 ± 1pmV-1, d15 = 6 ... 2; Ip = 37.2MWcm-2 (7ns, 10Hz); yield 3%, IRoutput 150µJ DAST (1318nm) = 1010pmV-1 Terahertz generation (difference frequency mixing) ( ...

Phase-matched interaction method
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, Section 1.7.4.2.2, p. 217 [ doi:10.1107/97809553602060000906 ]
... the different crystal point groups. References Boulanger, B., Fève, J. P., Marnier, G., Bonnin, C., Villeval, P. & Zondy, J. J. (1997). Absolute measurement of quadratic nonlinearities from phase- ...
     [more results from section 1.7.4 in volume D]

DFG () with undepletion at - optical parametric amplification (OPA), optical parametric oscillation (OPO)
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, Section 1.7.3.3.5.3, pp. 211-215 [ doi:10.1107/97809553602060000906 ]
... A. & Byer, R. L. (1979). Optical parametric amplification. IEEE J. Quantum Electron. QE15, 432-444. Boulanger, B., Fève, J. P., Ménaert, B. & Marnier, G. (1999). PCT/FR98/02563 Patent No. WO99/28785. Breitenbach, G., Schiller, S. & Mlynek, J. (1995). 81% conversion efficiency in frequency-stable continuous ...
     [more results from section 1.7.3 in volume D]

Implications of spatial symmetry on the susceptibility tensors
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, Section 1.7.2.2.2, pp. 185-186 [ doi:10.1107/97809553602060000906 ]
Implications of spatial symmetry on the susceptibility tensors 1.7.2.2.2. Implications of spatial symmetry on the susceptibility tensors Centrosymmetry is the most detrimental crystalline symmetry constraint that will fully cancel all odd-rank tensors such as the d(2) [or [chi](2)] susceptibilities. Intermediate situations, corresponding to noncentrosymmetric crystalline point groups, will ...
     [more results from section 1.7.2 in volume D]

Introduction
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, Section 1.7.1, p. 181 [ doi:10.1107/97809553602060000906 ]
... mineral and organic crystals showing nonlinear optical properties. References Armstrong, J. A., Bloembergen, N., Ducuing, J. & Pershan, P. (1962). Interactions between light waves in a ...

Glossary
Boulanger, B. and Zyss, J.  International Tables for Crystallography (2013). Vol. D, Section 1.7.6, p. 219 [ doi:10.1107/97809553602060000906 ]
... pp. 7-161. Berlin: Springer Verlag. Boulanger, B., Fève, J. P. & Marnier, G. (1993). Field factor formalism for the ... wave non linear optical interactions in uniaxial and biaxial crystals. J. Phys. Condens. Matter, 3, 8327-8350. Donaldson, W. R. & Tang ... parametric oscillator. Appl. Phys. Lett. 44, 25-27. Fève, J. P. (1994). Existence et symétrie des interactions à 3 ...

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