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Richard E. Russo
Researcher at Lawrence Berkeley National Laboratory
Publications - 356
Citations - 25674
Richard E. Russo is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Laser & Laser ablation. The author has an hindex of 62, co-authored 352 publications receiving 24343 citations. Previous affiliations of Richard E. Russo include Indiana University & University of California.
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UV fs–ns double-pulse laser induced breakdown spectroscopy for high spatial resolution chemical analysis
TL;DR: In this article, the use of an ultraviolet femtosecond (fs) and nanosecond(ns) double-pulse scheme was proposed to improve the analytical capabilities of LIBS in the few-micron (<2 μm) spatial resolution regime.
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Influence of biological degradation and environmental effects on the interpretation of archeological bone samples with laser-induced breakdown spectroscopy
TL;DR: In this paper, the authors used laser induced breakdown spectroscopy (LIBS) for the analysis and characterization of a broad variety of objects of cultural heritage especially bio-archeological samples such as calcified tissues.
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Propagation of the shock wave generated from excimer laser heating of aluminum targets in comparison with ideal blast wave theory
TL;DR: In this article, a probe beam deflection technique was used to measure the propagation of a shock wave generated during pulsed laser heating of aluminum targets, and the transit time of the laser-generated shock wave was compared with that predicted from the Sedov-Taylor solution for an ideal spherical blast wave.
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Temperature and Emission Spatial Profiles of Laser-Induced Plasmas during Ablation Using Time-Integrated Emission Spectroscopy:
TL;DR: In this article, the authors used time-integrated emission spectroscopy to measure axial spatial emission intensity of expanding plasmas, which can be influenced by the time integration.
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Laser–plasma interactions in fused silica cavities
TL;DR: The effect of laser energy on formation of a plasma inside a cavity was investigated in this paper, where the temperature and electron number density of laser-induced plasmas in a fused silica cavity were determined using spectroscopic methods, and compared with laser ablation on a flat surface.