Non-linear optical response

The first part of this paper responds to the first two problems through the calculation of the polarizability of CO (1). In this work, we bring our contribution to the three formal challenges enumerated by Ratner (2) in the special issue of Int. J. Quant. Chem. devoted to the understanding and calculation of the non linear optical response of molecules ... 

The connection between the non-linear polarization response and the generation of optical harmonics by NLO materials can be understood by considering Figure 39, which shows a typical non-linear optical response produced by a non-centrosymmetric molecule. 

The compound N,N -diphenylguanidinium 5-nitrouracilate dihydrate cristallizes in a centrosymmetric space group with one anion, one cation and two water molecules per asymmetric unit cell (Figure. 3). The inversion centre that relates the ions in the unit cell obliterates the non-linear optical response of this compound. Other 5-nitrouracil compoimds permit efficient blue-light generation from a pulsed laser source [14]. 

The analysis of these 25 compounds confirms the flexibility of dpg/dpg+. It can adopt a propeller like conformation and induce the formation of chiral crystals. It establishes predominantly two-dimensional H-bonding networks with the counter ion. From the perspective of the crystal engineer, an anticlinal conformation would maximize the non-linear properties of the molecule. However the non-linear optical response depends greatly on the molecular alignment. Non-centrosymmetric dispositions have not yet been achieved for dpg with an anti-anti conformation. The best strategy to attain NLO samples is by inducing a syn-anti conformation where a propeller structure might induce a chiral disposition of molecules and thus a non-centrosymmetric order. Another successful approach is to force crystallization with a chiral counterion. 

Multiple Heck reactions have also been applied in a number of ways to prepare polymers (Scheme 40). One-dimensionally 7r-conjugated polymers are attractive materials because of their optical and electrical properties resulting from 7r-electron delocalization along their main chains. Among these, poly(p-phenylenevinylene) (PPV) shows high electrical conductivity, large non-linear optical responses, and electroluminescent activity. One approach... 

While polymeric photorefractive materials can be prepared by adding separate molecules for photo-generation, charge transport and non-linear optical response into an inert polymer, most systems studied use polymers where one or more of these components are covalently bonded to the polymer. Polymer... 

We have observed the fifth order non-linear optical response of liquid CS2 by non-resonant six-wave mixing with five different short pulses. In Fig. 2 the fifth order signal from CS2 is illustrated as a... 

The problem of the polarization of the material in response to an added charge shares the same physics with another long-standing problem [26] the calculation of linear and non-linear optical responses of mm. In fact the molecules are polarized by any electric field, being it an externally applied field or generated by a charge... 

Whereas the distinction between collective and cooperative effects can appear artificial, it is obvious that, since optical responses are gs properties, their nonadditivity cannot be ascribed to the delocalized nature of excited states. On the other hand, static responses can be calculated from sum-over-state (SOS) expressions involving excited state energies and transition dipole moments [35]. And in fact tlie exciton model has been recently used by several authors to calculate and/or discuss linear and non-linear optical responses of mm [36, 37, 38, 39, 40, 41, 42]. But tlie excitonic model hardly accounts for cooperativity and one may ask if there is any link between collective effects related to the delocalized nature of exciton states and cooperative effects in the gs, related to the self-consistent dependence of tlie local molecular gs on the surrounding molecules. 

Reis, H., Papadopoulos, M.G. In Papadopoulos, M.G. (eds) On the Non-linear Optical Response of Molecules, Solids and Liquids Methods and Applications, Research Signpost Trivadrum, India (2003)... 

Antoine, R., Brevet. P.F., Girault, H.H., Bethell, D., Schiffrin, D.J. Surface plasmon enhanced non-linear optical response of gold nanoparticles at the airAoluene interface. Chem. Commun. 1997 (1901-1902)... 

Coe, B.J., Harris, J.A., Brunschwig, B.S. Determination of the molecular quadratic non-linear optical responses of V-shaped metallochromophores by using Stark spectroscopy. Dalton Trans. 2384-2386 (2003)... 

Konstantaki, M., Koudoumas, E., Couris, S., Laine, P., Amouyal, E., Leach, S. Substantial non-linear optical response of new polyads based on Ru and Os complexes of modified terpyridines. J. Phys. Chem. B 105, 10797-10804 (2001)... 

Coe, B.J., Beyer, T., Jeffery, J.C., Coles, S.J., Gelbrich, T., Hursthouse, M.B.. Light, M.E. A spectroscopic, electrochemical and structural study of polarizable, dipolar ruthenium(II) arsine complexes as models for chromophores with large quadratic non-linear optical responses. J. Chem. Soc., Dalton Trans. 797-803 (2000)... 

It is not surprising therefore that the optical properties of small metal particles have received a considerable interest worldwide. Their large range of applications goes from surface sensitive spectroscopic analysis to catalysis and even photonics with microwave polarizers [9-15]. These developments have sparked a renewed interest in the optical characterization of metallic particle suspensions, often routinely carried out by transmission electron microscopy (TEM) and UV-visible photo-absorption spectroscopy. The recent observation of large SP enhancements of the non linear optical response from these particles, initially for third order processes and more recently for second order processes has also initiated a particular attention for non linear optical phenomena [16-18]. Furthermore, the paradox that second order processes should vanish at first order for perfectly spherical particles whereas experimentally large intensities were collected for supposedly near-spherical particle suspensions had to be resolved. It is the purpose of tire present review to describe the current picture on the problem. 

Molecule-based materials exhibiting cooperative physical properties constitute one of the most active areas of interest in contemporary materials chemistry and science. An attractive chemical feature of these materials is the synthetic versatility provided by molecular chemistry. From the point of view of the physical properties, molecule-based materials can exhibit the properties of interest usually associated with the inorganic network solids, " as for example, high DC metal-like electrical conductivity and superconductivity, ferromagnetism, and non-linear optical responses. ... 

Gaudry, J.B. Capes. L. Langot. P. Marcen, S. Koll-mannsberger, M. Eavastre, O.iFreysz. E. Letard. J.F. Kahn. O. Second-order non-linear optical response of metallo-organic compounds Towards switchable materials. Chem. Phys. Lett. 2000. 324. 321-329. 

Finally, the recent discovery of a high non-linear optical response, in both polymers and oligomers based on heterocyclic compounds, has renewed the efforts to find and clarify the relationships between structure and properties. 

Over recent years there has been a steady growth of interest in vibrational effects in the context of ab initio calculations of linear and non-linear molecular response functions. It has been realized that in some cases vibrational may rival electronic contributions to the parameters controlling non-linear optical responses. This is particularly likely where the molecule is of higher symmetry (quadrupolar or octupolar rather than dipolar), and for lower frequency effects where there is little pre-resonant enhancement of the electronic contribution. The main features of the theoretical methodology for the calculation of vibrational response functions were established several years ago and the fundamental papers were reviewed in the previous volume. Recent developments have been the introduction of field induced co-ordinates, improved integration techniques and the first relativistic studies. ... 

FuIIerenes. - Perpete, Champagne and Kirtman have computed the vibrational contributions to the main non-linear optical response functions for the fiillerene Ceo- They use normal co-ordinates obtained in a DFT approximation combined with Hartree-Fock ab initio calculations of the electrical properties. Vibrational contributions to the electro-optic Kerr effect and degenerate four wave mixing are found to be comparable with the electronic effects. 

Liang et al. have used a linear scaling localized-density-matrix (LDM) approach to calculate the non-linear optical responses of large polydiacetylene oligomers. 

The third-order non-linear optical response of conjugated polymers, due to their highly conjugated structure, is being actively investigated particularly with polythiophenes [397]. These polymers present large and very fast non-linear optical responses. 

Figure 29-4. Non-linear optical response (data, fonts) and absorption coefficient (dashed...

---