Sean Knight

786 total citations
34 papers, 587 citations indexed

About

Sean Knight is a scholar working on Materials Chemistry, Electronic, Optical and Magnetic Materials and Atomic and Molecular Physics, and Optics. According to data from OpenAlex, Sean Knight has authored 34 papers receiving a total of 587 indexed citations (citations by other indexed papers that have themselves been cited), including 24 papers in Materials Chemistry, 14 papers in Electronic, Optical and Magnetic Materials and 11 papers in Atomic and Molecular Physics, and Optics. Recurrent topics in Sean Knight's work include Ga2O3 and related materials (12 papers), ZnO doping and properties (11 papers) and GaN-based semiconductor devices and materials (7 papers). Sean Knight is often cited by papers focused on Ga2O3 and related materials (12 papers), ZnO doping and properties (11 papers) and GaN-based semiconductor devices and materials (7 papers). Sean Knight collaborates with scholars based in United States, Sweden and Germany. Sean Knight's co-authors include M. Schubert, Rafał Korlacki, Vanya Darakchieva, A. Mock, Tino Hofmann, Ken Goto, Yoshinao Kumagai, Masataka Higashiwaki, S. Schöche and Erik Janzén and has published in prestigious journals such as Advanced Materials, Applied Physics Letters and Journal of Applied Physics.

In The Last Decade

Sean Knight

33 papers receiving 581 citations

Peers

Sean Knight
Lorenzo Sponza France
V. G. Tyuterev Russia
Aishi Yamamoto Japan
Joshua Leveillee United States
E. Buffagni Italy
B. Leibold Germany
Wolfgang Körner Germany
Jesse Noffsinger United States
Tero Pilvi Finland
Xianghan Xu United States
Lorenzo Sponza France
Sean Knight
Citations per year, relative to Sean Knight Sean Knight (= 1×) peers Lorenzo Sponza

Countries citing papers authored by Sean Knight

Since Specialization
Citations

This map shows the geographic impact of Sean Knight'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 Sean Knight with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Sean Knight more than expected).

Fields of papers citing papers by Sean Knight

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Sean Knight. 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 Sean Knight. The network helps show where Sean Knight may publish in the future.

Co-authorship network of co-authors of Sean Knight

This figure shows the co-authorship network connecting the top 25 collaborators of Sean Knight. A scholar is included among the top collaborators of Sean Knight 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 Sean Knight. Sean Knight 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.
Knight, Sean, Steffen Richter, Rafał Korlacki, et al.. (2024). Terahertz permittivity parameters of monoclinic single crystal lutetium oxyorthosilicate. Applied Physics Letters. 124(3). 1 indexed citations
2.
Richter, Steffen, Sean Knight, Sai Mu, et al.. (2024). High-field/high-frequency electron spin resonances of Fe-doped βGa2O3 by terahertz generalized ellipsometry: Monoclinic symmetry effects. Physical review. B.. 109(21). 5 indexed citations
3.
Knight, Sean, Philipp Kühne, V. Stanishev, et al.. (2024). Electron effective mass in GaN revisited: New insights from terahertz and mid-infrared optical Hall effect. APL Materials. 12(2). 5 indexed citations
4.
Kühne, Philipp, Sean Knight, Axel R. Persson, et al.. (2024). Electronic Properties of Group-III Nitride Semiconductors and Device Structures Probed by THz Optical Hall Effect. Materials. 17(13). 3343–3343. 2 indexed citations
5.
Knight, Sean, Steffen Richter, Philipp Kühne, et al.. (2023). Room temperature two-dimensional electron gas scattering time, effective mass, and mobility parameters in AlxGa1−xN/GaN heterostructures (0.07 ≤ x ≤ 0.42). Journal of Applied Physics. 134(18). 4 indexed citations
6.
Matson, Joseph R., Georgios Varnavides, Sean Knight, et al.. (2023). The Role of Optical Phonon Confinement in the Infrared Dielectric Response of III–V Superlattices. Advanced Materials. 36(3). 1 indexed citations
7.
Korlacki, Rafał, Sean Knight, Steffen Richter, et al.. (2022). Infrared-active phonon modes and static dielectric constants in α-(AlxGa1−x)2O3 (0.18 ≤ x ≤ 0.54) alloys. Applied Physics Letters. 120(11). 5 indexed citations
8.
Korlacki, Rafał, Sean Knight, Steffen Richter, et al.. (2022). Infrared dielectric functions and Brillouin zone center phonons of αGa2O3 compared to α-Al2O3. Physical Review Materials. 6(1). 14 indexed citations
9.
Schubert, M., Sean Knight, Steffen Richter, et al.. (2022). Terahertz electron paramagnetic resonance generalized spectroscopic ellipsometry: The magnetic response of the nitrogen defect in 4H-SiC. Applied Physics Letters. 120(10). 13 indexed citations
10.
Korlacki, Rafał, Sean Knight, Zbigniew Galazka, et al.. (2021). Optical phonon modes, static and high-frequency dielectric constants, and effective electron mass parameter in cubic In2O3. Journal of Applied Physics. 129(22). 15 indexed citations
11.
Knight, Sean, Ashish Chanana, Praneeth Ranga, et al.. (2020). The anisotropic quasi-static permittivity of single-crystal β -Ga2O3 measured by terahertz spectroscopy. Applied Physics Letters. 117(25). 40 indexed citations
12.
Korlacki, Rafał, Sean Knight, Zbigniew Galazka, et al.. (2020). Brillouin zone center phonon modes in ZnGa2O4. Applied Physics Letters. 117(5). 6 indexed citations
13.
Mock, A., Rafał Korlacki, Sean Knight, et al.. (2020). Infrared active phonons in monoclinic lutetium oxyorthosilicate. Journal of Applied Physics. 127(11). 8 indexed citations
14.
Knight, Sean, Rafał Korlacki, James C. Petrosky, et al.. (2020). Infrared-active phonon modes in single-crystal thorium dioxide and uranium dioxide. Journal of Applied Physics. 127(12). 7 indexed citations
15.
Schubert, M., A. Mock, Rafał Korlacki, et al.. (2019). Longitudinal phonon plasmon mode coupling in β -Ga2O3. Applied Physics Letters. 114(10). 23 indexed citations
16.
Mock, A., Vanya Darakchieva, Sean Knight, et al.. (2019). Dielectric function tensor (1.5 eV to 9.0 eV), anisotropy, and band to band transitions of monoclinic β -(AlxGa1–x)2O3 (x ≤ 0.21) films. Applied Physics Letters. 114(23). 27 indexed citations
17.
Mock, A., Sean Knight, Rafał Korlacki, et al.. (2019). Band-to-band transitions and critical points in the near-infrared to vacuum ultraviolet dielectric functions of single crystal urania and thoria. Applied Physics Letters. 114(21). 14 indexed citations
18.
Knight, Sean, D. Prabhakaran, Christian Binek, & M. Schubert. (2019). Electromagnon excitation in cupric oxide measured by Fabry-Pérot enhanced terahertz Mueller matrix ellipsometry. Scientific Reports. 9(1). 1353–1353. 6 indexed citations
19.
Knight, Sean, A. Mock, Rafał Korlacki, et al.. (2018). Electron effective mass in Sn-doped monoclinic single crystal β-gallium oxide determined by mid-infrared optical Hall effect. Applied Physics Letters. 112(1). 51 indexed citations
20.
Stanishev, V., et al.. (2018). Electron effective mass in In0.33Ga0.67N determined by mid- infrared optical Hall effect. Insecta mundi. 6 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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