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Author Index Aakeroy, C. B.,516 Addadi, L., 472 Adsmond, D. Α., 446 Allcock, Harry R., 258 Allemand, P.-M., 683 Azoz, N., 516 Bartoli, F. J., 626 Baumert, J.-C, 636 Beeson, Karl W., 303 Beratan, David N., 89 Bierlein, J. D., 158 Binkley, E. S., 103 Bjorklund, G. C , 216,636 CahiU, P. Α., 200 Calabrese, J. C , 158 Calvert, P.D.,516 Chae, Hee K.,528 Chen, Chuangtian, 360 Cheng, L. K., 158 Cheng, Lap-Tak, 158,187 Chow, Pauline, 605 Clark, Noel Α., 484 Dai, D.-R., 226 Dannenberg, J. J., 457 Dembek, Alexa Α., 258 Devine, Robert L. S., 258 Dirk, C. W., 687 Doroski, David, 484 Ducharme, S., 216 Dunn, Bruce, 541 Eaton, David F., 128,158 Eich, Manfred, 250 Etter, M. C , 446 Fang, T., 267 Feiring, A. E., 158 Fleming, W.,216 Frankenbach, G. M., 446 Fyfe, Helen B., 605 Ginsburg, E. J., 672 Gorman, C. B., 672 Grubbs, R. H., 672 Hampsch, Hilary L., 294 Handley, Laura, 170 Havelka, Kathleen O., 661 Herron, Norman, 582
Hill, C , 616 Holland, W. R., 267 Horn, Keith Α., 303 Huang, K. S., 446 Hubbard, Μ. Α., 226 Jobe, Ian R., 605 Johnson, Kristina M., 484 Jungbauer, D., 216 Kadim, M.,516 Kafafi, Zakya H., 626 Kaino, Toshikuni, 704 Kanbara, Hirohisa, 704 Kaner,R. B.,541 Kano, S., 636 Katz, Η. E., 267 Kenney, J. T., 103 Kim, Chulhee, 258 Kirkby, Scott, 554 Klein, Marvin B., 394 Klemperer, Walter G., 528 Knobbe, E. T., 541 [A Kohler, Werner, 170 Kubodera, Ken-ichi, 704 Kurihara, Takashi, 704 Kurtz, Stewart K., 605 Kuzyk, M. G., 687 Lahav, M., 472 Laudise, R. Α., 410 Lehn, J.-M., 436 Leiserowitz, L., 472 Lesley, Gerry, 605 Li, D., 226 Lindle, J. R., 626 Lipscomb, G. F., 103 Liu, J. Y., 484 Looser, H., 636 Lytel, R., 103 Manning, R. J., 616 Marder, Seth R., 2,187,672 Marder, Todd B., 605 Marks, T. J., 226 Marsh, Richard E., 187 Mates, T. E., 497 McBranch, D., 683 McCaffery, A. J., 516
724 Marder et al.; Materials for Nonlinear Optics ACS Symposium Series; American Chemical Society: Washington, DC, 1991.
725
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INDEX McFarland, Michael, 303 McKiernan, J., 541 Meredith, G. R., 158 Meszaros, Michèle, 554 Miller, R. D., 636 Moerner, W. E., 216 Morris, Patricia Α., 380 Nahata, Ajay, 303 Ni, Z., 683 Ober, C. K.,497 Oliver, S. N., 616 Ozin, Geoffrey Α., 554 Ozkar, Saim, 554 Park, J., 226 Payne, David Α., 528 Perry, Joseph W., 67,187,672 Popovitz-Biro, R., 472 Prasad, Paras N., 50 Pu,LyongSun, 331 Ratner, M. Α., 226 Rikken, G. L. J. Α., 158 Robello, Douglas R., 170,279 Robinson, Michael G., 484 Ros, M. Blanca, 484 Rush, J. D.,616 Rytz, Daniel, 394 Sasaki, K., 316 Schaefer, William P., 187 Schellenberg, F. M., 636 Schilling, M. L., 267 Schwartz, Robert N., 394 Scozzafava, Michael, 279 Seddon, K. R.,516 Sen, Ayusman, 250 Shao, Renfan, 484 Shi, Yongqiang, 258 Shirk, James S., 626 Shukla, P., 636 Singer, K. D., 200 Snow, Arthur W., 626 Sohn, John E.,2
Spangler, Charles W., 258,661 Srdanov, G., 683 Stegeman, George L, 113 Steier, William H., 258 Stein, Andreas, 554 Stringer, Graham, 605 Stucky, Galen D., 2,554 Suchicital, Carlos T. Α., 528 Svejda, Steven Α., 602 Swalen, J. D., 216 Takahashi, Y., 636 Tarn, Wilson, 158,187 Taylor, Nicholas J., 605 Ticknor, A. J., 103 Tiemann, Bruce G., 187 Torkelson, John M., 294 Torruellas, W., 636 Twieg, Robert J., 216,250 Ulman, Abraham, 170,279 Underhill, Α., 616 Velsko, Stephan P., 343 Wake, Douglas R., 528 Walba, David M., 484 Wang, Y., 158 Wechsler, Barry Α., 394 Willand, Craig S., 170,279 Williams, David J., 31,170,279 Williams, Ian D., 605 Willson, C. G.,216 Wilson, Scott R., 528 Winter, C. S., 616 Wong, George K., 226,294 Wright, Michael E., 602 Wu, Chengjiu, 303 Wudl, F., 683 Yang, Jian, 226,294 Yardley, James T., 303 Yuan, Zheng, 605 Yoon, Do Y., 216,250 Zink, Jeffrey I., 541
Affiliation Index Allied-Signal, Inc., 303 AT&T Bell Laboratories, 2,200,267,410,687 Β angor University, 616 British Telecom Research Laboratories, 616
California Institute of Technology, 2,67,89,187,672 Chinese Academy of Sciences, 360 City University of New York, 457
Marder et al.; Materials for Nonlinear Optics ACS Symposium Series; American Chemical Society: Washington, DC, 1991.
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MATERIALS FOR NONLINEAR OPTICS: CHEMICAL PERSPECTIVES
College de France, 436 Philips Research Laboratories, 158 Cornell University, 497 Sandia National Laboratories, 200 Ε. I. du Pont de Nemours and Company, State University of New York at Buffalo, 50 128,158,187,380,582 Universite Louis Pasteur, 436 Eastman Kodak Company, 31,170,279 University of Arizona, 113,516 Fuji Xerox Company, 331 University of California—Los Angeles, 541 Hughes Research Laboratories, 394 University of California—Santa Barbara, Hunter College, 457 2,554,683 IBM Research Division, 216,250,636 University of Colorado, 484 Keio University, 316 University of Illinois at UrbanaLawrence Livermore National Laboratory, 343 Champaign, 528 Lockheed Research and Development University of Minnesota, 446 Division, 103 University of Southern California, 258 Naval Research Laboratory, 626 University of Sussex, 516 Northern Illinois University, 258,661 University of Toronto, 554 Northwestern University, 226,294 University of Waterloo, 605 NTT Opto-electronics Laboratories, 704 Utah State University, 602 Pennsylvania State University, 258,605 Weizmann Institute of Science, 472
Subject Index A Acceptor species concentrations, equations, 400-401 Acentric materials biomimetic design, 454-455 synthesis approaches, 446 iv"-(2-Acetamido-4-nitrophenyl)pyrrolidene control of crystal rx)lymorphism with assistance of auxiliary, 480-482 packing arrangements, 480,481-482/ Acetylenes, second- and third-order optical nonlinearities, 605-606 N-Acetyltyrosine, phase-matching loci for doubling, 355,356/, Acid dimers, orientations, 454 Active polymer waveguides, applications, 111 Aggregates, controlling symmetry, 446 Aggregation, molecular orbital modeling, 457-470 All-optical bistability angular dependence, 324 experimental setup, 321,323/ output-input curves, 321,324,325/ thermal effect, 324 All-optical guided wave devices examples, 124,125/126
All-optical guided wave devices—Continued operating characteristics, 126 responses to increasing power, 124,125/ All-optical nonlinear optical effects, discovery, 128 Aluminosilicate xerogels, synthesis, 542 Amino acids, use as nonlinear optical material, 137 2-Amino-5-nitropyrimidine, cocrystallization, 455 Amorphous polymers, criteria for use in second harmonic generation, 250-251 Amphiphilic molecules polar Z-type Langmuir-Blodgett films, formation, 473-^79 structures, transfer behavior, and contact angles, 474,476-477/ Anharmonic oscillator models, nonlinear optical effect-microstructure relationship, 361 Anharmonic oscillator-molecular orbital theory connection anharmonic energy profile, 97,98/ two-orbital calculation, 96-97,98/ Anharmonic springs, nonlinear polarizabilities, 90 Anionic group theory assumptions, 364-365
Marder et al.; Materials for Nonlinear Optics ACS Symposium Series; American Chemical Society: Washington, DC, 1991.
