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1 - Historical perspective

Published online by Cambridge University Press:  05 February 2016

Y. R. Shen
Affiliation:
University of California, Berkeley
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Print publication year: 2016

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References

Franken, P. A.; Weinreich, G.; Peters, C. W.; Hill, A. E.: Generation of Optical Harmonics. Phys Rev Lett 1961, 7, 118119.CrossRefGoogle Scholar
Bass, M.; Hill, A. E.; Franken, P. A.; Peters, C. W.; Weinreich, G.: Optical Mixing. Phys Rev Lett 1962, 8, 1819.CrossRefGoogle Scholar
Armstrong, J. A.; Bloembergen, N.; Ducuing, J.; Pershan, P. S.: Interactions between Light Waves in a Nonlinear Dielectric. Phys Rev 1962, 127, 19181939.CrossRefGoogle Scholar
Bloembergen, N.; Pershan, P. S.: Light Waves at Boundary of Nonlinear Media. Phys Rev 1962, 128, 606622.CrossRefGoogle Scholar
Ducuing, J.; Bloembergen, N.: Observation of Reflected Light Harmonics at Boundary of Piezoelectric Crystals. Phys Rev Lett 1963, 10, 474476.CrossRefGoogle Scholar
Bloembergen, N.; Chang, R. K.; Jha, S. S.; Lee, C. H.: Optical Second-Harmonic Generation in Reflection from Media with Inversion Symmetry. Phys Rev 1968, 174, 813822.CrossRefGoogle Scholar
Bloembergen, N.; Chang, R. K.: Second Harmonic Generation of Light from Surface Layers of Media with Inversion Symmetry. In Physics of Quantum Electronics; Lax, B., Kelley, P. M., Eds.; McGraw Hill: New York, 1965; pp 8085.Google Scholar
Brown, F.; Parks, R. E.; Sleeper, A. M.: Nonlinear Optical Reflection from a Metallic Boundary. Phys Rev Lett 1965, 14, 10291031.CrossRefGoogle Scholar
Bloembergen, N.; Chang, R. K.; Lee, C. H.: Second-Harmonic Generation of Light in Reflection from Media with Inversion Symmetry. Phys Rev Lett 1966, 16, 986989.CrossRefGoogle Scholar
Brown, F.; Matsuoka, M.: Effect of Adsorbed Surface Layers on Second-Harmonic Light from Silver. Phys Rev 1969, 185, 985987.CrossRefGoogle Scholar
McCardel, P. D; Stern, E. A.: Effect of Surface Conditions on Production of Second Harmonic by Silver. B Am Phys Soc 1971, 16, 431.Google Scholar
Rudnick, J.; Stern, E. A.: Second-Harmonic Radiation from Metal Surfaces. Phys Rev B 1971, 4, 42744290.CrossRefGoogle Scholar
Miller, R. C.: Optical Harmonic Generation in Single Crystal BaTiO3. Phys Rev a-Gen Phys 1964, 134, 13131319.CrossRefGoogle Scholar
Chen, J. M.; Bower, J. R.; Wang, C. S.; Lee, C. H.: Optical Second-Harmonic Generation from Submonolayer Na-Covered Ge Surfaces. Opt Commun 1973, 9, 132134.CrossRefGoogle Scholar
Fleischmann, M.; Hendra, P.J.; McQuilla, A.J.: Raman-Spectra of Pyridine Adsorbed at a Silver Electrode. Chem Phys Lett 1974, 26, 163166.CrossRefGoogle Scholar
Chang, R. K., Furtak, T. E., Eds.: Surface Enhanced Raman Scattering. Plenum: New York, 1982.CrossRefGoogle Scholar
Chen, C. K.; de Castro, A. R. B.; Shen, Y. R.: Surface-Enchanced 2nd-Harmonic Generation. Phys Rev Lett 1981, 46, 145148.CrossRefGoogle Scholar
Chen, C. K.; Heinz, T. F.; Ricard, D.; Shen, Y. R.: Detection of Molecular Monolayers by Optical 2nd-Harmonic Generation. Phys Rev Lett 1981, 46, 10101012.CrossRefGoogle Scholar
Chen, C. K.: Nonlinear Optics at Interfaces. PhD Thesis, University of California, Berkeley, 1980.CrossRefGoogle Scholar
Heinz, T. F.; Chen, C. K.; Ricard, D.; Shen, Y. R.: Optical 2nd-Harmonic Generation from a Monolayer of Centrosymmetric Molecules Adsorbed on Silver. Chem Phys Lett 1981, 83, 180182.CrossRefGoogle Scholar
Boyd, G. T.; Shen, Y. R.; Hansch, T. W.: Continuous-Wave 2nd-Harmonic Generation as a Surface Microprobe. Opt Lett 1986, 11, 9799.CrossRefGoogle Scholar
Heinz, T. F.: Nonlinear Optics of Surfaces and Adsorbates. PhD Thesis, University of California, Berkeley, 1982.Google Scholar
Tom, H. W. K.: Studies of Surfaces Using Optical Second Harmonic Generation. PhD Thesis, University of California, Berkeley, 1984.CrossRefGoogle Scholar
Hsiung, H.: Optical Studies of Liquid Crystal Films: Structures, Surface Ordering, and Dynamics. PhD Thesis, University of California, Berkeley, 1985.Google Scholar
Guyot-Sionnest, P.: Optical Second Harmonic Generation and Infrared Visible Sum Frequency Generation as Surface Probes. PhD Thesis, University of California, Berkeley, 1987.Google Scholar
Hunt, J. H.: Studies of Surfaces Using Optical Sum-Frequency Generation. PhD Thesis, University of California, Berkeley, 1988.Google Scholar
Chen, W.: Linear and Nonlinear Optical Studies of Liquid Crystal Interfaces. PhD Thesis, University of California, Berkeley, 1990.Google Scholar
Heinz, T. F.; Chen, C. K.; Ricard, D.; Shen, Y. R.: Spectroscopy of Molecular Monolayers by Resonant 2nd-Harmonic Generation. Phys Rev Lett 1982, 48, 478481.CrossRefGoogle Scholar
Heinz, T. F.; Tom, H. W. K.; Shen, Y. R.: Determination of Molecular-Orientation of Monolayer Adsorbates by Optical 2nd-Harmonic Generation. Phys Rev A 1983, 28, 18831885.CrossRefGoogle Scholar
Tom, H. W. K.; Heinz, T. F.; Shen, Y. R.: 2nd-Harmonic Reflection from Silicon Surfaces and Its Relation to Structural Symmetry. Phys Rev Lett 1983, 51, 19831986.CrossRefGoogle Scholar
Heinz, T. F.; Loy, M. M. T.; Thompson, W. A.: Study of Si(111) Surfaces by Optical 2nd-Harmonic Generation – Reconstruction and Surface Phase-Transformation. Phys Rev Lett 1985, 54, 6366.CrossRefGoogle Scholar
Guyot-Sionnest, P.; Chen, W.; Shen, Y. R.: General-Considerations on Optical 2nd-Harmonic Generation from Surfaces and Interfaces. Phys Rev B 1986, 33, 82548263.CrossRefGoogle Scholar
Guyot-Sionnest, P.; Shen, Y. R.: Local and Nonlocal Surface Nonlinearities for Surface Optical 2nd-Harmonic Generation. Phys Rev B 1987, 35, 44204426.CrossRefGoogle Scholar
Guyot-Sionnest, P.; Shen, Y. R.: Bulk Contribution in Surface 2nd-Harmonic Generation. Phys Rev B 1988, 38, 79857989.CrossRefGoogle Scholar
Tom, H. W. K.; Mate, C. M.; Zhu, X. D.; Crowell, J. E.; Heinz, T. F.; Somorjai, G. A.; Shen, Y. R.: Surface Studies by Optical 2nd-Harmonic Generation – the Adsorption of O2, Co, and Sodium on the Rh(111) Surface. Phys Rev Lett 1984, 52, 348351.CrossRefGoogle Scholar
Tom, H. W. K.; Zhu, X. D.; Shen, Y. R.; Somorjai, G. A.: Investigation of the Si(111)-(7×7) Surface by 2nd-Harmonic Generation – Oxidation and the Effects of Surface Phosphorus. Surf Sci 1986, 167, 167176.CrossRefGoogle Scholar
Kemnitz, K.; Bhattacharyya, K.; Hicks, J. M.; Pinto, G. R.; Eisenthal, K. B.; Heinz, T. F.: The Phase of 2nd-Harmonic Light Generated at an Interface and Its Relation to Absolute Molecular-Orientation. Chem Phys Lett 1986, 131, 285290.CrossRefGoogle Scholar
Shank, C. V.; Yen, R.; Hirlimann, C.: Femtosecond-Time-Resolved Surface Structural Dynamics of Optically-Excited Silicon. Phys Rev Lett 1983, 51, 900902.CrossRefGoogle Scholar
Rasing, T.; Shen, Y. R.; Kim, M. W.; Grubb, S.: Observation of Molecular-Reorientation at a 2-Dimensional-Liquid Phase-Transition. Phys Rev Lett 1985, 55, 29032906.CrossRefGoogle Scholar
Hicks, J. M.; Kemnitz, K.; Eisenthal, K. B.; Heinz, T. F.: Studies of Liquid Surfaces by 2nd Harmonic-Generation. J Phys Chem-Us 1986, 90, 560562.CrossRefGoogle Scholar
Xiao, X. D.; Vogel, V.; Shen, Y. R.: Probing the Proton Excess at Interfaces by 2nd Harmonic-Generation. Chem Phys Lett 1989, 163, 555559.CrossRefGoogle Scholar
Zhao, X. L.; Subrahmanyan, S.; Eisenthal, K. B.: Determination of pKa at the Air–Water Interface by 2nd Harmonic-Generation. Chem Phys Lett 1990, 171, 558562.CrossRefGoogle Scholar
Zhu, X. D.; Suhr, H.; Shen, Y. R.: Surface Vibrational Spectroscopy by Infrared-Visible Sum Frequency Generation. Phys Rev B 1987, 35, 30473050.CrossRefGoogle ScholarPubMed
Hunt, J. H.; Guyot-Sionnest, P.; Shen, Y. R.: Observation of C-H Stretch Vibrations of Monolayers of Molecules Optical Sum-Frequency Generation. Chem Phys Lett 1987, 133, 189192.CrossRefGoogle Scholar
Guyot-Sionnest, P.; Superfine, R.; Hunt, J. H.; Shen, Y. R.: Vibrational Spectroscopy of a Silane Monolayer at Air Solid and Liquid Solid Interfaces Using Sum-Frequency Generation. Chem Phys Lett 1988, 144, 15.CrossRefGoogle Scholar
Guyot-Sionnest, P.; Hunt, J. H.; Shen, Y. R.: Sum-Frequency Vibrational Spectroscopy of a Langmuir Film – Study of Molecular-Orientation of a Two-Dimensional System. Phys Rev Lett 1987, 59, 15971600.CrossRefGoogle ScholarPubMed
Harris, A. L.; Chidsey, C. E. D.; Levinos, N. J.; Loiacono, D. N.: Monolayer Vibrational Spectroscopy by Infrared-Visible Sum Generation at Metal and Semiconductor Surfaces. Chem Phys Lett 1987, 141, 350356.CrossRefGoogle Scholar
Superfine, R.; Huang, J. Y.; Shen, Y. R.: Nonlinear Optical Studies of the Pure Liquid Vapor Interface – Vibrational-Spectra and Polar Ordering. Phys Rev Lett 1991, 66, 10661069.CrossRefGoogle ScholarPubMed
Superfine, R.; Huang, J. Y.; Shen, Y. R.: Experimental-Determination of the Sign of Molecular Dipole-Moment Derivatives – an Infrared Visible Sum Frequency Generation Absolute Phase Measurement Study. Chem Phys Lett 1990, 172, 303306.CrossRefGoogle Scholar
Zhao, X. L.; Subrahmanyan, S.; Eisenthal, K. B.: Orientational Fluctuations and Phase-Transitions of Long-Chain Molecules at the Air–Water-Interface. Phys Rev Lett 1991, 67, 20252028.CrossRefGoogle ScholarPubMed
Grubb, S. G.; Kim, M. W.; Rasing, T.; Shen, Y. R.: Orientation of Molecular Monolayers at the Liquid-Liquid Interface as Studied by Optical 2nd Harmonic-Generation. Langmuir 1988, 4, 452454.CrossRefGoogle Scholar
Hsiung, H.; Shen, Y. R.: Probing the Structure of Freely Suspended Smectic-a Films by Optical 2nd-Harmonic Generation. Phys Rev A 1986, 34, 43034309.CrossRefGoogle Scholar
Guyot-Sionnest, P.; Hsiung, H.; Shen, Y. R.: Surface Polar Ordering in a Liquid-Crystal Observed by Optical 2nd-Harmonic Generation. Phys Rev Lett 1986, 57, 29632966.CrossRefGoogle Scholar
Chen, W.; Feller, M. B.; Shen, Y. R.: Investigation of Anisotropic Molecular Orientational Distributions of Liquid-Crystal Monolayers by Optical 2nd-Harmonic Generation. Phys Rev Lett 1989, 63, 26652668.CrossRefGoogle Scholar
Feller, M. B.; Chen, W.; Shen, Y. R.: Investigation of Surface-Induced Alignment of Liquid-Crystal Molecules by Optical 2nd-Harmonic Generation. Phys Rev A 1991, 43, 67786792.CrossRefGoogle Scholar
Zhuang, X. W.; Marrucci, L.; Shen, Y. R.: Surface-Monolayer-Induced Bulk Alignment of Liquid-Crystals. Phys Rev Lett 1994, 73, 15131516.CrossRefGoogle ScholarPubMed
Berkovic, G.; Rasing, T.; Shen, Y. R.: Study of Monolayer Polymerization Using Nonlinear Optics. J Chem Phys 1986, 85, 73747376.CrossRefGoogle Scholar
Furtak, T. E.; Miragliotta, J.; Korenowski, G. M.: Optical 2nd-Harmonic Generation from Thallium on Silver. Phys Rev B 1987, 35, 25692572.CrossRefGoogle Scholar
Koos, D. A.: An Optical 2nd Harmonic-Generation Study of Thallium Underpotential Deposition on Au(111). J Electrochem Soc 1989, 136, C218C220.CrossRefGoogle Scholar
Richmond, G. L.: Laser Spectroscopy and Photochemistry on Metal Surface. In Laser Spectroscopy and Photochemistry on Metal Surface, Dai, H.-L. and Ho, W., Eds., World Scientific Publishing Co.: Singapore, 1995, I, pp. 132183.CrossRefGoogle Scholar
Eisenthal, K. B.: Liquid Interfaces. Accounts Chem Res 1993, 26, 636643.CrossRefGoogle Scholar
Srivastava, A.; Eisenthal, K. B.: Kinetics of Molecular Transport Across a Liposome Bilayer. Chem Phys Lett 1998, 292, 345351.CrossRefGoogle Scholar
Stehlin, T.; Feller, M.; Guyot-Sionnest, P.; Shen, Y. R.: Optical 2nd-Harmonic Generation as a Surface Probe for Noncentrosymmetric Media. Opt Lett 1988, 13, 389391.CrossRefGoogle Scholar
Pan, R. P.; Wei, H. D.; Shen, Y. R.: Optical 2nd-Harmonic Generation from Magnetized Surfaces. Phys Rev B 1989, 39, 12291234.CrossRefGoogle Scholar
Reif, J.; Zink, J. C.; Schneider, C. M.; Kirschner, J.: Effects of Surface Magnetism on Optical 2nd Harmonic-Generation. Phys Rev Lett 1991, 67, 28782881.CrossRefGoogle Scholar
Ekspla Laser Co, 237 Savanoriu Ave., Vilnius, Lithuania.Google Scholar
Zhang, J. Y.; Huang, J. Y.; Shen, Y. R.; Chen, C.: Optical Parametric Generation and Amplification in Barium Borate and Lithium Triborate Crystals. J Opt Soc Am B 1993, 10, 17581764.CrossRefGoogle Scholar
Richter, L. J.; Petralli-Mallow, T. P.; Stephenson, J. C.: Vibrationally Resolved Sum-Frequency Generation with Broad-Bandwidth Infrared Pulses. Opt Lett 1998, 23, 15941596.CrossRefGoogle ScholarPubMed
Ji, N.; Ostroverkhov, V.; Chen, C. Y.; Shen, Y. R.: Phase-Sensitive Sum-Frequency Vibrational Spectroscopy and Its Application to Studies of Interfacial Alkyl Chains. J Am Chem Soc 2007, 129, 1005610057.CrossRefGoogle ScholarPubMed
Nihonyanagi, S.; Yamaguchi, S.; Tahara, T.: Direct Evidence for Orientational Flip-Flop of Water Molecules at Charged Interfaces: A Heterodyne-Detected Vibrational Sum Frequency Generation Study. J Chem Phys 2009, 130, 204704.CrossRefGoogle ScholarPubMed
Nihonyanagi, S.; Singh, P. C.; Yamaguchi, S.; Tahara, T.: Ultrafast Vibrational Dynamics of a Charged Aqueous Interface by Femtosecond Time-Resolved Heterodyne-Detected Vibrational Sum Frequency Generation. B Chem Soc Jpn 2012, 85, 758760.CrossRefGoogle Scholar

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  • Historical perspective
  • Y. R. Shen, University of California, Berkeley
  • Book: Fundamentals of Sum-Frequency Spectroscopy
  • Online publication: 05 February 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781316162613.002
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  • Historical perspective
  • Y. R. Shen, University of California, Berkeley
  • Book: Fundamentals of Sum-Frequency Spectroscopy
  • Online publication: 05 February 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781316162613.002
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Historical perspective
  • Y. R. Shen, University of California, Berkeley
  • Book: Fundamentals of Sum-Frequency Spectroscopy
  • Online publication: 05 February 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781316162613.002
Available formats
×