Abstract.
During the last decade, infrared optical sum-frequency generation (SFG) has been demonstrated to be a valuable technique for acquiring vibrational spectra of molecules at interfaces. However, the instrumentation that most frequently has been employed, which is based upon picosecond-scale pulse-width lasers, is fundamentally limited in the spectral resolution that can be achieved (typically ∼6 cm-1). We have optimized an older technology, based on a nanosecond-scale pulse-width laser, which enables the infrared frequency to be specified to within 0.2 cm-1. Exploiting this advantage, we have observed previously unrecognized features in the SFG spectrum of self-assembled monolayers. We demonstrate this through experiments performed on rubbed octadecylsiloxane (ODS) on glass, a system of considerable importance in liquid-crystal-display technology.
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Received: 14 August 2001 / Revised version: 15 January 2002 / Published online: 14 March 2002
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Chow, B., Ehler, T. & Furtak, T. High-resolution sum-frequency generation from alkylsiloxane monolayers . Appl Phys B 74, 395–399 (2002). https://doi.org/10.1007/s003400200815
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DOI: https://doi.org/10.1007/s003400200815