Jonathan R. Mannouch

469 total citations
16 papers, 326 citations indexed

About

Jonathan R. Mannouch is a scholar working on Atomic and Molecular Physics, and Optics, Spectroscopy and Electrical and Electronic Engineering. According to data from OpenAlex, Jonathan R. Mannouch has authored 16 papers receiving a total of 326 indexed citations (citations by other indexed papers that have themselves been cited), including 16 papers in Atomic and Molecular Physics, and Optics, 4 papers in Spectroscopy and 3 papers in Electrical and Electronic Engineering. Recurrent topics in Jonathan R. Mannouch's work include Spectroscopy and Quantum Chemical Studies (15 papers), Advanced Chemical Physics Studies (9 papers) and Quantum, superfluid, helium dynamics (6 papers). Jonathan R. Mannouch is often cited by papers focused on Spectroscopy and Quantum Chemical Studies (15 papers), Advanced Chemical Physics Studies (9 papers) and Quantum, superfluid, helium dynamics (6 papers). Jonathan R. Mannouch collaborates with scholars based in Switzerland, Germany and United Kingdom. Jonathan R. Mannouch's co-authors include Jeremy O. Richardson, Joseph E. Lawrence, William Barford, Johan E. Runeson, Aaron Kelly and Sarah Al-Assam and has published in prestigious journals such as The Journal of Chemical Physics, The Journal of Physical Chemistry Letters and Annual Review of Physical Chemistry.

In The Last Decade

Jonathan R. Mannouch

16 papers receiving 325 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 R. Mannouch Switzerland 11 305 50 43 38 34 16 326
Johan E. Runeson Switzerland 10 308 1.0× 39 0.8× 26 0.6× 41 1.1× 29 0.9× 17 325
Nicole Bellonzi United States 5 380 1.2× 76 1.5× 85 2.0× 39 1.0× 16 0.5× 5 406
Joseph E. Lawrence Switzerland 12 259 0.8× 33 0.7× 33 0.8× 11 0.3× 20 0.6× 20 301
Yaling Ke China 13 326 1.1× 32 0.6× 45 1.0× 54 1.4× 15 0.4× 24 371
Loïc Joubert-Doriol Canada 10 303 1.0× 106 2.1× 54 1.3× 25 0.7× 14 0.4× 15 344
Lea M. Ibele France 10 214 0.7× 69 1.4× 59 1.4× 14 0.4× 19 0.6× 17 280
Sohang Kundu United States 13 318 1.0× 40 0.8× 66 1.5× 49 1.3× 87 2.6× 21 373
Amber Jain India 7 524 1.7× 103 2.1× 131 3.0× 56 1.5× 24 0.7× 13 563
Jacob S. Higgins United States 8 225 0.7× 25 0.5× 14 0.3× 24 0.6× 58 1.7× 15 291
Florian A. Y. N. Schröder United Kingdom 10 401 1.3× 27 0.5× 37 0.9× 130 3.4× 21 0.6× 16 474

Countries citing papers authored by Jonathan R. Mannouch

Since Specialization
Citations

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

Fields of papers citing papers by Jonathan R. Mannouch

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jonathan R. Mannouch. 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 R. Mannouch. The network helps show where Jonathan R. Mannouch may publish in the future.

Co-authorship network of co-authors of Jonathan R. Mannouch

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

All Works

16 of 16 papers shown
1.
Richardson, Jeremy O., Joseph E. Lawrence, & Jonathan R. Mannouch. (2025). Nonadiabatic Dynamics with the Mapping Approach to Surface Hopping (MASH). Annual Review of Physical Chemistry. 76(1). 663–687. 7 indexed citations
2.
Lawrence, Joseph E., Jonathan R. Mannouch, & Jeremy O. Richardson. (2024). Recovering Marcus Theory Rates and Beyond without the Need for Decoherence Corrections: The Mapping Approach to Surface Hopping. The Journal of Physical Chemistry Letters. 15(3). 707–716. 18 indexed citations
3.
Lawrence, Joseph E., et al.. (2024). A MASH simulation of the photoexcited dynamics of cyclobutanone. The Journal of Chemical Physics. 160(17). 16 indexed citations
4.
Lawrence, Joseph E., Jonathan R. Mannouch, & Jeremy O. Richardson. (2024). A size-consistent multi-state mapping approach to surface hopping. The Journal of Chemical Physics. 160(24). 9 indexed citations
5.
Mannouch, Jonathan R. & Aaron Kelly. (2024). Toward a Correct Description of Initial Electronic Coherence in Nonadiabatic Dynamics Simulations. The Journal of Physical Chemistry Letters. 15(46). 11687–11695. 5 indexed citations
6.
Mannouch, Jonathan R. & Aaron Kelly. (2024). Quantum Quality with Classical Cost: Ab Initio Nonadiabatic Dynamics Simulations Using the Mapping Approach to Surface Hopping. The Journal of Physical Chemistry Letters. 15(22). 5814–5823. 11 indexed citations
7.
Mannouch, Jonathan R. & Jeremy O. Richardson. (2023). A mapping approach to surface hopping. The Journal of Chemical Physics. 158(10). 104111–104111. 58 indexed citations
8.
Mannouch, Jonathan R., et al.. (2023). Detailed balance in mixed quantum–classical mapping approaches. The Journal of Chemical Physics. 159(21). 18 indexed citations
9.
Runeson, Johan E., Joseph E. Lawrence, Jonathan R. Mannouch, & Jeremy O. Richardson. (2022). Explaining the Efficiency of Photosynthesis: Quantum Uncertainty or Classical Vibrations?. The Journal of Physical Chemistry Letters. 13(15). 3392–3399. 31 indexed citations
10.
Runeson, Johan E., et al.. (2022). Spin-Mapping Methods for Simulating Ultrafast Nonadiabatic Dynamics. CHIMIA International Journal for Chemistry. 76(6). 582–582. 19 indexed citations
11.
Mannouch, Jonathan R. & Jeremy O. Richardson. (2021). A partially linearized spin-mapping approach for simulating nonlinear optical spectra. The Journal of Chemical Physics. 156(2). 24108–24108. 28 indexed citations
12.
Mannouch, Jonathan R. & Jeremy O. Richardson. (2020). A partially linearized spin-mapping approach for nonadiabatic dynamics. I. Derivation of the theory. Repository for Publications and Research Data (ETH Zurich). 38 indexed citations
13.
Mannouch, Jonathan R. & Jeremy O. Richardson. (2020). A partially linearized spin-mapping approach for nonadiabatic dynamics. II. Analysis and comparison with related approaches. Repository for Publications and Research Data (ETH Zurich). 32 indexed citations
14.
Barford, William, et al.. (2019). Using spectroscopy to probe relaxation, decoherence, and localization of photoexcited states in π-conjugated polymers. Faraday Discussions. 221(0). 281–298. 1 indexed citations
15.
Barford, William & Jonathan R. Mannouch. (2018). Torsionally induced exciton localization and decoherence in π-conjugated polymers. The Journal of Chemical Physics. 149(21). 214107–214107. 7 indexed citations
16.
Mannouch, Jonathan R., William Barford, & Sarah Al-Assam. (2018). Ultra-fast relaxation, decoherence, and localization of photoexcited states in π-conjugated polymers. Oxford University Research Archive (ORA) (University of Oxford). 28 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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