Jonathan C. Sharp

1.2k total citations
48 papers, 895 citations indexed

About

Jonathan C. Sharp is a scholar working on Radiology, Nuclear Medicine and Imaging, Spectroscopy and Nuclear and High Energy Physics. According to data from OpenAlex, Jonathan C. Sharp has authored 48 papers receiving a total of 895 indexed citations (citations by other indexed papers that have themselves been cited), including 36 papers in Radiology, Nuclear Medicine and Imaging, 16 papers in Spectroscopy and 16 papers in Nuclear and High Energy Physics. Recurrent topics in Jonathan C. Sharp's work include Advanced MRI Techniques and Applications (35 papers), NMR spectroscopy and applications (16 papers) and Advanced NMR Techniques and Applications (16 papers). Jonathan C. Sharp is often cited by papers focused on Advanced MRI Techniques and Applications (35 papers), NMR spectroscopy and applications (16 papers) and Advanced NMR Techniques and Applications (16 papers). Jonathan C. Sharp collaborates with scholars based in Canada, United Kingdom and Poland. Jonathan C. Sharp's co-authors include Bogusław Tomanek, Martin O. Leach, Vanessa Krause, Joshua T. Morgan, Dave Collins, Richard Bowtell, Hongwei Sun, V. R. McCready, Timothy Smith and J. Glaholm and has published in prestigious journals such as PLoS ONE, Journal of Bone and Mineral Research and Magnetic Resonance in Medicine.

In The Last Decade

Jonathan C. Sharp

47 papers receiving 842 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Jonathan C. Sharp Canada 18 516 220 152 149 113 48 895
Luc Darrasse France 21 716 1.4× 386 1.8× 144 0.9× 396 2.7× 52 0.5× 62 1.2k
Shigeru Matsui Japan 20 487 0.9× 345 1.6× 336 2.2× 148 1.0× 59 0.5× 72 1.0k
Victor Waluch United States 16 585 1.1× 61 0.3× 96 0.6× 85 0.6× 171 1.5× 20 1.3k
Chang Hyun Oh South Korea 18 242 0.5× 72 0.3× 74 0.5× 82 0.6× 485 4.3× 110 1.1k
A. Knüttel Germany 15 540 1.0× 129 0.6× 103 0.7× 82 0.6× 71 0.6× 27 1.2k
A. Briguet France 16 425 0.8× 193 0.9× 184 1.2× 137 0.9× 36 0.3× 67 724
Hong N. Yeung United States 17 557 1.1× 236 1.1× 175 1.2× 93 0.6× 47 0.4× 37 761
Hisanao Hazama Japan 15 154 0.3× 117 0.5× 21 0.1× 58 0.4× 40 0.4× 76 595
J. M. Pouvesle France 12 1.1k 2.0× 97 0.4× 14 0.1× 109 0.7× 22 0.2× 23 1.3k
Gregory S. Boutis United States 16 58 0.1× 161 0.7× 128 0.8× 71 0.5× 26 0.2× 34 468

Countries citing papers authored by Jonathan C. Sharp

Since Specialization
Citations

This map shows the geographic impact of Jonathan C. Sharp's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Jonathan C. Sharp with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jonathan C. Sharp more than expected).

Fields of papers citing papers by Jonathan C. Sharp

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jonathan C. Sharp. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Jonathan C. Sharp. The network helps show where Jonathan C. Sharp may publish in the future.

Co-authorship network of co-authors of Jonathan C. Sharp

This figure shows the co-authorship network connecting the top 25 collaborators of Jonathan C. Sharp. A scholar is included among the top collaborators of Jonathan C. Sharp based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Jonathan C. Sharp. Jonathan C. Sharp is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Tomanek, Bogusław, et al.. (2025). Radial TRASE: 2D RF encoding through mechanical rotation and active digital decoupling. Magnetic Resonance in Medicine. 95(2). 987–1001.
2.
Tomanek, Bogusław, et al.. (2022). A truncated twisted solenoid RF phase gradient transmit coil for TRASE MRI. Journal of Magnetic Resonance. 347. 107361–107361. 2 indexed citations
3.
Sun, Hongwei, et al.. (2020). The effects of coupled B1 fields in B1 encoded TRASE MRI - A simulation study. Magnetic Resonance Imaging. 74. 74–83. 6 indexed citations
4.
Sun, Hongwei, et al.. (2019). A high duty-cycle, multi-channel, power amplifier for high-resolution radiofrequency encoded magnetic resonance imaging. Magnetic Resonance Materials in Physics Biology and Medicine. 32(6). 679–692. 5 indexed citations
5.
Sharp, Jonathan C., et al.. (2019). Design, Development, and Content Creation for an Open Education Physics Website for MRT Education. Journal of medical imaging and radiation sciences. 50(2). 212–219. 3 indexed citations
6.
Sun, Hongwei, et al.. (2019). TRASE 1D sequence performance in imperfectB1fields. Journal of Magnetic Resonance. 305. 77–88. 9 indexed citations
7.
Sun, Hongwei, et al.. (2018). The twisted solenoid RF phase gradient transmit coil for TRASE imaging. Journal of Magnetic Resonance. 299. 135–150. 15 indexed citations
8.
Babyn, Paul, et al.. (2016). Least squares reconstruction of non-linear RF phase encoded MR data. Magnetic Resonance Imaging. 34(7). 951–963. 6 indexed citations
9.
King, Alison J., et al.. (2012). In Vivo Open-Bore MRI Reveals Region- and Sub-Arc-Specific Lengthening of the Unloaded Human Posterior Cruciate Ligament. PLoS ONE. 7(11). e48714–e48714. 11 indexed citations
10.
Sharp, Jonathan C., et al.. (2009). MRI using radiofrequency magnetic field phase gradients. Magnetic Resonance in Medicine. 63(1). 151–161. 49 indexed citations
11.
Tomanek, Bogusław, et al.. (2004). High-resolution imaging at 3T and 7T with multiring local volume coils. Magnetic Resonance Materials in Physics Biology and Medicine. 16(4). 167–173. 6 indexed citations
12.
Sharp, Jonathan C., et al.. (2004). In vivo morphological characterisation of skin by MRI micro‐imaging methods. Skin Research and Technology. 10(3). 149–160. 50 indexed citations
13.
14.
Weber, Michael H., Jonathan C. Sharp, Thomas Hassard, & William Orr. (2002). Normal murine bone morphometry: a comparison of magnetic resonance microscopy with micro X-ray and histology. Skeletal Radiology. 31(5). 282–291. 5 indexed citations
15.
Ryner, Lawrence, et al.. (1999). MR spectroscopy using multi-ring surface coils. Magnetic Resonance in Medicine. 42(4). 655–664. 11 indexed citations
16.
Bowtell, Richard, Andrew Peters, Jonathan C. Sharp, et al.. (1995). NMR Microscopy of Single Neurons Using Spin Echo and Line Narrowed 2DFT Imaging. Magnetic Resonance in Medicine. 33(6). 790–794. 34 indexed citations
17.
Bowtell, Richard, Jonathan C. Sharp, Andrew Peters, et al.. (1994). NMR microscopy of hydrating hydrophilic matrix pharmaceutical tablets. Magnetic Resonance Imaging. 12(2). 361–364. 52 indexed citations
18.
Sharp, Jonathan C. & Martin O. Leach. (1992). Rapid localization of concave volumes by conformal NMR spectroscopy. Magnetic Resonance in Medicine. 23(2). 386–393. 2 indexed citations
19.
Sharp, Jonathan C., Martin O. Leach, & Dave Collins. (1992). A single-shot shimming sequence using low-power RF noise pulses for localized in vivo NMR spectroscopy. Physics in Medicine and Biology. 37(1). 281–287. 6 indexed citations
20.
Sharp, Jonathan C. & Martin O. Leach. (1989). Conformal NMR spectroscopy: Accurate localization to noncuboidal volumes with optimum SNR. Magnetic Resonance in Medicine. 11(3). 376–388. 23 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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