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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.
Papers
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A search for interstellar silicon nitride.
TL;DR: In this paper, the authors search for the N = 2-l rotational transI-tion of silicon nitride, SiN, at 87 GHz and find that SiN/CN < or = 0.002-0.08, significantly less than the silicon-to-carbon ratI-o of 0.l.
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High spatial resolution imaging with near-field scanning optical microscopy in liquids.
TL;DR: The mechanism of tuning fork-based shear-force near-field scanning optical microscopy is investigated to determine optimal experimental conditions for imaging soft samples immersed in liquid to obtain high feedback sensitivity and stability.
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A microwave substitution structure for protonated nitrogen N2H
P. G. Szanto,Thomas G. Anderson,Richard J. Saykally,N. D. Piltch,T. A. Dixon,R. Claude Woods +5 more
TL;DR: In this article, microwave observations of the J = 0-1 transitions of N2H+, 15N2H+ and 15N14ND+ have been used to determine a substitution structure for N 2H+.
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Reversed interfacial fractionation of carbonate and bicarbonate evidenced by X-ray photoemission spectroscopy
Royce K. Lam,Royce K. Lam,Jacob W. Smith,Jacob W. Smith,Anthony M. Rizzuto,Anthony M. Rizzuto,Osman Karslıoğlu,Hendrik Bluhm,Richard J. Saykally,Richard J. Saykally +9 more
TL;DR: In this paper, the relative fractionation of carbonate, bicarbonate, and carbonic acid at the liquid/vapor interface was investigated, and it was shown that carbonate (CO32−) and carbon acid (H2CO3−) are present in higher concentrations than bic carbonate in the interfacial region.
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A re-examination of the 4051 Å band of C3 using cavity ringdown spectroscopy of a supersonic plasma
TL;DR: In this paper, the authors used cavity ringdown spectroscopy to obtain a high resolution, low temperature spectrum of the 4051 A band, and confirmed that the R(0) transition was incorrectly assigned in previous laboratory work.