Justin Waugh

807 total citations
19 papers, 571 citations indexed

About

Justin Waugh is a scholar working on Atomic and Molecular Physics, and Optics, Condensed Matter Physics and Materials Chemistry. According to data from OpenAlex, Justin Waugh has authored 19 papers receiving a total of 571 indexed citations (citations by other indexed papers that have themselves been cited), including 11 papers in Atomic and Molecular Physics, and Optics, 10 papers in Condensed Matter Physics and 8 papers in Materials Chemistry. Recurrent topics in Justin Waugh's work include Advanced Condensed Matter Physics (8 papers), Physics of Superconductivity and Magnetism (6 papers) and Magnetic and transport properties of perovskites and related materials (6 papers). Justin Waugh is often cited by papers focused on Advanced Condensed Matter Physics (8 papers), Physics of Superconductivity and Magnetism (6 papers) and Magnetic and transport properties of perovskites and related materials (6 papers). Justin Waugh collaborates with scholars based in United States, Switzerland and China. Justin Waugh's co-authors include D. S. Dessau, Yue Cao, Xiaoqing Zhou, Haoxiang Li, Stephen Parham, T. J. Reber, Q. Wang, Gang Cao, Thomas Nummy and Matthew Brahlek and has published in prestigious journals such as Nature Communications, Nano Letters and Journal of Applied Physics.

In The Last Decade

Justin Waugh

18 papers receiving 562 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Justin Waugh United States 12 352 313 279 242 54 19 571
Hao Chu United States 9 317 0.9× 337 1.1× 312 1.1× 253 1.0× 117 2.2× 20 644
Florian Loder Germany 11 428 1.2× 221 0.7× 261 0.9× 359 1.5× 79 1.5× 19 595
Seung Ryong Park South Korea 11 238 0.7× 398 1.3× 298 1.1× 155 0.6× 85 1.6× 19 586
Carina A. Belvin United States 7 355 1.0× 508 1.6× 345 1.2× 252 1.0× 28 0.5× 8 677
A. Szilva Sweden 12 287 0.8× 391 1.2× 184 0.7× 250 1.0× 39 0.7× 20 558
Daniel Walkup United States 14 403 1.1× 556 1.8× 559 2.0× 226 0.9× 53 1.0× 21 853
Paula Giraldo‐Gallo United States 14 332 0.9× 147 0.5× 216 0.8× 322 1.3× 55 1.0× 29 523
Atasi Chakraborty India 10 224 0.6× 300 1.0× 190 0.7× 232 1.0× 88 1.6× 28 540
S. Charpentier Sweden 15 304 0.9× 422 1.3× 369 1.3× 144 0.6× 104 1.9× 28 637
Zhujun Yuan China 10 277 0.8× 470 1.5× 453 1.6× 189 0.8× 54 1.0× 10 655

Countries citing papers authored by Justin Waugh

Since Specialization
Citations

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

Fields of papers citing papers by Justin Waugh

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Justin Waugh

This figure shows the co-authorship network connecting the top 25 collaborators of Justin Waugh. A scholar is included among the top collaborators of Justin Waugh 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 Justin Waugh. Justin Waugh is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

19 of 19 papers shown
1.
Reber, T. J., Xiaoqing Zhou, N. C. Plumb, et al.. (2019). A unified form of low-energy nodal electronic interactions in hole-doped cuprate superconductors. Nature Communications. 10(1). 5737–5737. 22 indexed citations
2.
Nummy, Thomas, Justin Waugh, Stephen Parham, et al.. (2018). Measurement of the atomic orbital composition of the near-fermi-level electronic states in the lanthanum monopnictides LaBi, LaSb, and LaAs. npj Quantum Materials. 3(1). 13 indexed citations
3.
Zhou, Xiaoqing, Qihang Liu, Quansheng Wu, et al.. (2018). Coexistence of tunable Weyl points and topological nodal lines in ternary transition-metal telluride TaIrTe4. Physical review. B.. 97(24). 29 indexed citations
4.
Zhou, Xiaoqing, Qihang Liu, Justin Waugh, et al.. (2017). Predicted electronic markers for polytypes of LaOBiS2 examined via angle-resolved photoemission spectroscopy. Physical review. B.. 95(7). 19 indexed citations
5.
Parham, Stephen, Haoxiang Li, Thomas Nummy, et al.. (2017). Ultrafast Gap Dynamics and Electronic Interactions in a Photoexcited Cuprate Superconductor. Physical Review X. 7(4). 21 indexed citations
6.
Cao, Yue, Qiang Wang, Justin Waugh, et al.. (2016). Hallmarks of the Mott-metal crossover in the hole-doped pseudospin-1/2 Mott insulator Sr2IrO4. Nature Communications. 7(1). 11367–11367. 82 indexed citations
7.
Liu, Qihang, Xiuwen Zhang, Justin Waugh, D. S. Dessau, & Alex Zunger. (2016). Orbital mapping of energy bands and the truncated spin polarization in three-dimensional Rashba semiconductors. Physical review. B.. 94(12). 10 indexed citations
8.
Zhou, Xiaoqing, Haoxiang Li, Justin Waugh, et al.. (2016). Angle-resolved photoemission study of the Kitaev candidateαRuCl3. Physical review. B.. 94(16). 46 indexed citations
9.
Waugh, Justin, Thomas Nummy, Stephen Parham, et al.. (2016). Minimal ingredients for orbital-texture switches at Dirac points in strong spin–orbit coupled materials. npj Quantum Materials. 1(1). 8 indexed citations
10.
Koirala, Nikesh, Matthew Brahlek, M. Salehi, et al.. (2015). Record Surface State Mobility and Quantum Hall Effect in Topological Insulator Thin Films via Interface Engineering. Nano Letters. 15(12). 8245–8249. 107 indexed citations
11.
Cao, Yue, Qiang Wang, R. S. Dhaka, et al.. (2014). Hallmarks of Metal Insulator transition in Doped Sr$_{2}$IrO$_{4}$. Bulletin of the American Physical Society. 2014.
12.
Reber, T. J., N. C. Plumb, Justin Waugh, & D. S. Dessau. (2014). Effects, determination, and correction of count rate nonlinearity in multi-channel analog electron detectors. Review of Scientific Instruments. 85(4). 43907–43907. 13 indexed citations
13.
Parham, Stephen, T. J. Reber, Yue Cao, et al.. (2013). Pair breaking caused by magnetic impurities in the high-temperature superconductor Bi2.1Sr1.9Ca(Cu1xFex)2Oy. Physical Review B. 87(10). 10 indexed citations
14.
Cao, Yue, Justin Waugh, Jun‐Wei Luo, et al.. (2013). Mapping the orbital wavefunction of the surface states in three-dimensional topological insulators. Nature Physics. 9(8). 499–504. 106 indexed citations
15.
Wang, Q., Yue Cao, Justin Waugh, et al.. (2013). Dimensionality-controlled Mott transition and correlation effects in single-layer and bilayer perovskite iridates. Physical Review B. 87(24). 62 indexed citations
16.
Kawabata, Shiro, et al.. (2011). In 0.53 Ga 0.47 As/In 0.52 Al 0.48 As量子井戸の正方ループ配列で観察されたスピン干渉効果の半古典的解釈. Physical Review B. 84(23). 1–233305. 4 indexed citations
17.
18.
Jin, Song, Justin Waugh, Taeko Matsuura, et al.. (2010). Spin dependent electronic structure and level crossings as a function of magnetic field in InAs nanowire. Physics Procedia. 3(2). 1321–1324. 3 indexed citations
19.
Waugh, Justin, et al.. (2009). Photoinduced spin-polarized current in InSb-based structures. Journal of Applied Physics. 106(10). 14 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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