SwePub - search: WFRF:(Jones Kelly)

Enumeration	Reference	Cover	Find
1.	Kanai, M, et al. (author) 2023 swepub:Mat__t
2.	2021 swepub:Mat__t
3.	Niemi, MEK, et al. (author) 2021 swepub:Mat__t
4.	Ahmad, T, et al. (author) Global patient outcomes after elective surgery: prospective cohort study in 27 low-, middle- and high-income countries 2016 In: British journal of anaesthesia. - : Elsevier BV. - 1471-6771 .- 0007-0912. ; 117:5, s. 601- Journal article (peer-reviewed)
5.	Ahmad, T, et al. (author) In-hospital clinical outcomes after upper gastrointestinal surgery: Data from an international observational study 2017 In: European journal of surgical oncology : the journal of the European Society of Surgical Oncology and the British Association of Surgical Oncology. - : Elsevier BV. - 1532-2157 .- 0748-7983. ; 43:12, s. 2324-2332 Journal article (peer-reviewed)
6.	Ahmad, T, et al. (author) Use of failure-to-rescue to identify international variation in postoperative care in low-, middle- and high-income countries: a 7-day cohort study of elective surgery 2017 In: British journal of anaesthesia. - : Elsevier BV. - 1471-6771 .- 0007-0912. ; 119:2, s. 258-266 Journal article (peer-reviewed)
7.	2021 swepub:Mat__t
8.	Glasbey, JC, et al. (author) 2021 swepub:Mat__t
9.	Beal, Jacob, et al. (author) Robust estimation of bacterial cell count from optical density 2020 In: Communications Biology. - : Springer Science and Business Media LLC. - 2399-3642. ; 3:1 Journal article (peer-reviewed)abstract Optical density (OD) is widely used to estimate the density of cells in liquid culture, but cannot be compared between instruments without a standardized calibration protocol and is challenging to relate to actual cell count. We address this with an interlaboratory study comparing three simple, low-cost, and highly accessible OD calibration protocols across 244 laboratories, applied to eight strains of constitutive GFP-expressing E. coli. Based on our results, we recommend calibrating OD to estimated cell count using serial dilution of silica microspheres, which produces highly precise calibration (95.5% of residuals <1.2-fold), is easily assessed for quality control, also assesses instrument effective linear range, and can be combined with fluorescence calibration to obtain units of Molecules of Equivalent Fluorescein (MEFL) per cell, allowing direct comparison and data fusion with flow cytometry measurements: in our study, fluorescence per cell measurements showed only a 1.07-fold mean difference between plate reader and flow cytometry data.
10.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
11.	Aad, G., et al. (author) 2010 swepub:Mat__t
12.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
13.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
14.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
15.	Aad, G., et al. (author) Drift Time Measurement in the ATLAS Liquid Argon Electromagnetic Calorimeter using Cosmic Muons 2010 In: European Physical Journal C. Particles and Fields. - : Springer Science and Business Media LLC. - 1434-6044 .- 1434-6052. ; 70:3, s. 755-785 Journal article (peer-reviewed)
16.	Aad, G., et al. (author) Readiness of the ATLAS liquid argon calorimeter for LHC collisions 2010 In: European Physical Journal C. Particles and Fields. - : Springer Science and Business Media LLC. - 1434-6044 .- 1434-6052. ; 70:3, s. 723-753 Journal article (peer-reviewed)
17.	Corbalan, R, et al. (author) Analysis of Outcomes in Ischemic vs Nonischemic Cardiomyopathy in Patients With Atrial Fibrillation: A Report From the GARFIELD-AF Registry 2019 In: JAMA cardiology. - : American Medical Association (AMA). - 2380-6591 .- 2380-6583. ; 4:6, s. 526-548 Journal article (peer-reviewed)
18.	Enhanced performance in fusion plasmas through turbulence suppression by megaelectronvolt ions 2022 In: Nature Physics. - : Springer Science and Business Media LLC. - 1745-2481 .- 1745-2473. ; 18:7, s. 776-782 Journal article (peer-reviewed)
19.	Murari, A., et al. (author) A control oriented strategy of disruption prediction to avoid the configuration collapse of tokamak reactors 2024 In: Nature Communications. - 2041-1723 .- 2041-1723. ; 15:1 Journal article (peer-reviewed)abstract The objective of thermonuclear fusion consists of producing electricity from the coalescence of light nuclei in high temperature plasmas. The most promising route to fusion envisages the confinement of such plasmas with magnetic fields, whose most studied configuration is the tokamak. Disruptions are catastrophic collapses affecting all tokamak devices and one of the main potential showstoppers on the route to a commercial reactor. In this work we report how, deploying innovative analysis methods on thousands of JET experiments covering the isotopic compositions from hydrogen to full tritium and including the major D-T campaign, the nature of the various forms of collapse is investigated in all phases of the discharges. An original approach to proximity detection has been developed, which allows determining both the probability of and the time interval remaining before an incoming disruption, with adaptive, from scratch, real time compatible techniques. The results indicate that physics based prediction and control tools can be developed, to deploy realistic strategies of disruption avoidance and prevention, meeting the requirements of the next generation of devices.
20.	Overview of JET results for optimising ITER operation 2022 In: Nuclear Fusion. - : IOP Publishing. - 1741-4326 .- 0029-5515. ; 62:4 Research review (peer-reviewed)
21.	Vega, J., et al. (author) Disruption prediction with artificial intelligence techniques in tokamak plasmas 2022 In: Nature Physics. - : Springer Science and Business Media LLC. - 1745-2481 .- 1745-2473. ; 18:7, s. 741-750 Research review (peer-reviewed)
22.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
23.	Aad, G., et al. (author) 2011 Journal article (peer-reviewed)
24.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
25.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
26.	Aad, G., et al. (author) 2013 swepub:Mat__t (peer-reviewed)
27.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
28.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
29.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
30.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
31.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
32.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
33.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
34.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
35.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
36.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
37.	Aad, G., et al. (author) 2012 Journal article (peer-reviewed)
38.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
39.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
40.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
41.	Aad, G., et al. (author) 2011 Journal article (peer-reviewed)
42.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
43.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
44.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
45.	Aad, G., et al. (author) 2011 Journal article (peer-reviewed)
46.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
47.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)
48.	Aad, G., et al. (author) 2011 swepub:Mat__t
49.	Aad, G., et al. (author) 2011 swepub:Mat__t (peer-reviewed)
50.	Aad, G., et al. (author) 2012 swepub:Mat__t (peer-reviewed)

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