7,449 research outputs found
Mrs. Jacob Postell to James W. Terrell, October 17, 1885
In this letter of October 17, 1885, Mrs. Jacob Postell (E. C. Postell) writes James W. Terrell requesting a land deed. Mrs. Postell explains her husband, Jacob Postell, missed his meeting with Mr. Terrell about the deed due to his poor health
A 11.5 W Yb:YAG planar waveguide fabricated via pulsed laser deposition
Dataset for the figures in Grant-Jacob, James A, Beecher, Stephen J, Parsonage, Tina L, Hua, Ping, Mackenzie, Jacob I, Shepherd, David P and Eason, Robert W (2015) An 11.5 W Yb:YAG planar waveguide laser fabricated via pulsed laser deposition. Optical Materials Express
Data collection method: Optical spectrum analyzer (Ando AQ6317).</span
Dataset for: Semantic segmentation of pollen grain images generated from scattering patterns via deep learning
This dataset supports the publication: Grant-Jacob, James A., Praeger, Matthew, Eason, Robert W. and Ben Mills (2021). Semantic segmentation of pollen grain images generated from scattering patterns via deep learning. IOP Journal of Physics Communications
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Dataset for Yb:YAG planar waveguide lasers grown by pulsed laser deposition: 70% slope efficiencies at 16 W of output power
Data for the figures in the paper "Beecher, S.J., Grant-Jacob, J.A., Parsonage, T.L., Hua, P., Mackenzie, J.I., Shepherd, D.P. and Eason, R.W. (2016) Yb:YAG planar waveguide lasers grown by pulsed laser deposition: 70% slope efficiencies at 16 W of output power. In, Solid State Lasers XXV: Technology and Devices, San Francisco, US, 13 - 18 Feb 2016. (doi:10.1117/12.2220388)."</span
Dataset for: Determination of urban particulates size from occluded scattering patterns using deep learning and data augmentation
This dataset supports the publication: James A. Grant-Jacob, Matthew Praeger, Matthew Loxham, Robert W. Eason and Ben Mills. Determination of size of urban particulates from occluded scattering patterns using deep learning and data augmentation. IOP Environmental Research Communications. DOI: 10.1088/2515-7620/abed94</span
Dataset for: Exploring sequence transformation in magnetic resonance imaging via deep learning using data from a single asymptomatic patient
This dataset contains the tabular and images for the figure in the following publication:
James A. Grant-Jacob, Chris Everitt, Robert W. Eason, Leonard J. King and Ben Mills (2021), 'Exploring sequence transformation in magnetic resonance imaging via deep learning using data from a single asymptomatic patient' published in IOP Journal of Physics Communications</span
Jacob Viner’s Reminiscences from the New Deal (February 11, 1953)
This paper presents and reproduces an unpublished oral history interview given by Jacob Viner in 1953. The interview released by Viner for the Columbia Oral History Project gives us a valuable opportunity to throw light on his advisory activity during the New Deal Era. In our introduction we attempt to make a critical appraisal of Viner's reminiscences and to state the contribution they can provide to our general knowledge of the period. In addition, we also attempt to find out some biographical and interpretative elements useful to understand Viner’s own vision and his contribution to important economic policy processes during the New Deal.
Dataset for Dynamic Control of Refractive Index during Pulsed Laser Deposited Waveguide Growth
Dataset for paper Grant-Jacob, J., Beecher, S. J., Riris, H., Yu, A., Shepherd, D. P., Eason, R. W., & Mackenzie, J. I. (2017). Dynamic control of refractive index during pulsed laser deposited waveguide growth. Optical Materials Express. DOI:https://doi.org/10.1364/OME.7.004073</span
Data for "Modeling adult skeletal stem cell response to laser-machined topographies through deep learning"
Figures in original resolution from "Modeling adult skeletal stem cell response to laser-machined topographies through deep learning".
Authors: BENITA S. MACKAY, MATTHEW PRAEGER, JAMES A. GRANT-JACOB, JANOS KANCZLER, ROBERT W. EASON, RICHARD O.C. OREFFO AND BEN MILLS
Published: Tissue & Cell
Funding: BM was supported by an EPSRC Early Career Fellowship (EP/N03368X/1). Research funding to RO by the Biotechnology and Biological Sciences Research Council (BB/P017711/1) and the UK Regenerative Medicine Platform Acellular / Smart Materials – 3D Architecture (MR/R015651/1) is gratefully acknowledged.
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An 11.5 W Yb:YAG planar waveguide laser fabricated via pulsed laser deposition
We present details of the homo-epitaxial growth of Yb:YAG onto a <100> oriented YAG substrate by pulsed laser deposition. Material characterization and initial laser experiments are also reported, including the demonstration of laser action from the 15 µm-thick planar waveguide generating 11.5 W of output power with a slope efficiency of 48%. This work indicates that under appropriate conditions, high-quality single-crystal Yb:YAG growth via pulsed laser deposition is achievable with characteristics comparable to those obtained via conventional crystal growth techniques
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