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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A zone-based approach for processing and interpreting variability in multi-temporal yield data sets
TL;DR: This work details an alternate segmentation-based methodology to first generate and then characterize contiguous within-field yield zones from historical yield data, which operates on the yield data rather than interpolated yield maps.
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Complement factor 2 deficiency: a clinical and serological family study.
TL;DR: A family with inherited deficiency of complement factor 2 (C2) is described in which two members with homozygous C2 deficiency developed cutaneous vasculitis and sicca syndrome and further studies showed the presence of cryoglobulins, antibodies against endothelial cells, and anticardiolipin antibodies.
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Direct measurement of chirped optical pulses with picosecond resolution
TL;DR: Using a synchronously operating streak camera in conjunction with a 1 m monochromator, the induced frequency chirp of an optical pulse on propagation over 2.2 km of singlemode optical fibre has been directly measured with picosecond resolution as discussed by the authors.
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A survey for millisecond pulsars at Molonglo
N. D’Amico,Richard N. Manchester,J. M. Durdin,G. H. Stokes,D. R. Stinebring,James Taylor,R. J. V. Brissenden +6 more
TL;DR: In this article, le long du plan galactique sud (P=255° a P=360°, b=± 1°) was investigated by le radiotelescope de Molonglo for the recherche of pulsars millisecondes.
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All-solid-state Kerr lens mode-locked Cr4+:forsterite laser
TL;DR: In this paper, a compact self-mode-locked all-solid-state forsterite laser generating transform is described, with a power consumption of sub 70 fs pulses and a tunable (in the second telecommunications window) all solid-state.