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Richard J. Saykally
Researcher at University of California, Berkeley
Publications - 459
Citations - 42709
Richard J. Saykally is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Spectroscopy & Absorption spectroscopy. The author has an hindex of 94, co-authored 457 publications receiving 40997 citations. Previous affiliations of Richard J. Saykally include University of California & Lawrence Berkeley National Laboratory.
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Determination of the Born–Oppenheimer potential function of CCl+ by velocity modulation diode laser spectroscopy
TL;DR: In this article, the spectrum of C35Cl+ and C37Cl+ was fitted to a sixth order Dunham expansion to yield an accurate mapping of the Born-Oppenheimer potential function of CCl+.
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Revisiting the total ion yield x-ray absorption spectra of liquid water microjets.
TL;DR: The new experimental results suggest that the observable TIY-XAS is actually nearly identical in appearance to the total electron yield (TEY-)XAS, which is a bulk probe.
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A high resolution study of the ν3 band of the ammonium ion (NH+4) by velocity modulation laser absorption spectroscopy
TL;DR: In this article, the authors used the velocity modulation laser absorption spectroscopy (VMS) technique to measure the ammonium ion (NH+4 ) transition with an accuracy of 0.005 cm−1 using an effective sixth order Hamiltonian.
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Infrared Cavity Ringdown Spectroscopy of Jet-Cooled Nucleotide Base Clusters and Water Complexes
TL;DR: In this paper, the first direct infrared absorption measurements of gas phase nucleotide base clusters and complexes with water were presented, and the IR cavity ringdown laser absorption spectroscopy results showed unusually large bonded OH stretch red shifts for uracil−water clusters, providing evidence of the extremely strong hydrogen bonds formed between these molecules predicted in ab initio calculations.
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Single Nanowire Lasers.
Justin C. Johnson,Haoquan Yan,Richard D. Schaller,Louis H. Haber,Richard J. Saykally,Peidong Yang +5 more
TL;DR: In this article, ultraviolet lasing from single zinc oxide nanowires is demonstrated at room temperature, and near-field optical microscopy images quantify the localization and divergence of the laser beam.