J
James Taylor
Researcher at Newcastle University
Publications - 1190
Citations - 43346
James Taylor is an academic researcher from Newcastle University. The author has contributed to research in topics: Laser & Fiber laser. The author has an hindex of 95, co-authored 1161 publications receiving 39945 citations. Previous affiliations of James Taylor include Institut national de la recherche agronomique & European Spallation Source.
Papers
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Computer-aided Control Engineering Environments: Architecture, User Interface, Data-base Management, and Expert Aiding
TL;DR: The GE MEAD Project involves the integration of powerful CACE packages under a supervisor which coordinates the execution of these packages with a modern UI, a CACE-oriented DBM, and an expert system.
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The effects of task-specific self-schemata on attributions for success and failure
James Taylor,Ann K. Boggiano +1 more
TL;DR: In this paper, the authors investigate whether task-specific self-schemata determine the attributions made for success and failure, i.e., cognitions that individuals hold about their ability at a particular task.
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Causes of pattern in plant communities where environmental change is rapid and species longevity is short
TL;DR: This article published an article published in the Journal of Vegetation Science 2006 published by Opulus Press, which is a publisher's version of the article published by the authors of this article.
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Passive mode locking of a continuous wave dye laser operating in the blue-green spectral region
Paul M. W. French,James Taylor +1 more
TL;DR: In this paper, the passive mode locking of a continuous wave dye laser operating in the blue-green spectral region is reported for the first time, with a simple linear configuration with no optimization of the intracavity dispersion.
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Picosecond optical parametric oscillator pumped by temporally compressed pulses from a Q-switched, mode-locked, cw-pumped Nd:YAG laser.
Algis Piskarskas,Valerijus Smilgevičius,A. Umbrasas,J. P. Juodišius,A. S. L. Gomes,James Taylor +5 more
TL;DR: Using, for the first time to the authors' knowledge, the frequency-doubled temporally compressed pulses from a cw-pumped, Q-switched, mode-locked Nd:YAG laser to pump a parametric oscillator based on temperature-tuned barium sodium niobate, resolution-limited pulses are generated.