Andreas Pusch

1.6k total citations
47 papers, 1.2k citations indexed

About

Andreas Pusch is a scholar working on Atomic and Molecular Physics, and Optics, Electrical and Electronic Engineering and Biomedical Engineering. According to data from OpenAlex, Andreas Pusch has authored 47 papers receiving a total of 1.2k indexed citations (citations by other indexed papers that have themselves been cited), including 32 papers in Atomic and Molecular Physics, and Optics, 26 papers in Electrical and Electronic Engineering and 20 papers in Biomedical Engineering. Recurrent topics in Andreas Pusch's work include solar cell performance optimization (18 papers), Plasmonic and Surface Plasmon Research (13 papers) and Semiconductor Quantum Structures and Devices (11 papers). Andreas Pusch is often cited by papers focused on solar cell performance optimization (18 papers), Plasmonic and Surface Plasmon Research (13 papers) and Semiconductor Quantum Structures and Devices (11 papers). Andreas Pusch collaborates with scholars based in United Kingdom, Australia and Germany. Andreas Pusch's co-authors include Ortwin Hess, Joachim M. Hamm, Sebastian Wuestner, Kosmas L. Tsakmakidis, Nicholas J. Ekins‐Daukes, Chris C. Phillips, Markus Porto, Megumi Yoshida, Sebastian Weber and Yasushi Shoji and has published in prestigious journals such as Physical Review Letters, SHILAP Revista de lepidopterología and ACS Nano.

In The Last Decade

Andreas Pusch

44 papers receiving 1.1k citations

Peers

Andreas Pusch
M.S. Vasconcelos Brazil
Louis Gaudreau Canada
Hai Son Nguyen France
Efe İlker United States
Lorenzo Dominici Italy
Qing Li United States
P. M. Walker United Kingdom
Robert Douthat Meade
Michaël Sarrazin Belgium
Dominique Coquillat France
M.S. Vasconcelos Brazil
Andreas Pusch
Citations per year, relative to Andreas Pusch Andreas Pusch (= 1×) peers M.S. Vasconcelos

Countries citing papers authored by Andreas Pusch

Since Specialization
Citations

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

Fields of papers citing papers by Andreas Pusch

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Andreas Pusch

This figure shows the co-authorship network connecting the top 25 collaborators of Andreas Pusch. A scholar is included among the top collaborators of Andreas Pusch 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 Andreas Pusch. Andreas Pusch 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.
Dubajić, Miloš, Andreas Pusch, Michael P. Nielsen, & Samuel D. Stranks. (2025). Accurate Determination of Phonon Lifetimes from the Spectral Domain. SHILAP Revista de lepidopterología. 4(3).
2.
Nielsen, Michael P., Andreas Pusch, Phoebe Pearce, et al.. (2024). Semiconductor thermoradiative power conversion. Nature Photonics. 18(11). 1137–1146. 8 indexed citations
3.
Li, Caixia, Andreas Pusch, Ziheng Liu, et al.. (2023). A modeling framework to quantify the intermediate layer impact in III–V//Si multijunction solar cells. Japanese Journal of Applied Physics. 62(SK). SK1053–SK1053. 2 indexed citations
4.
Pusch, Andreas, Udo Römer, Dimitrie Culcer, & Nicholas J. Ekins‐Daukes. (2023). Energy Conversion Efficiency of the Bulk Photovoltaic Effect. SHILAP Revista de lepidopterología. 2(1). 21 indexed citations
5.
Hanif, Muhammad Fainan, Stephen Bremner, Michael P. Nielsen, et al.. (2023). Heat Flow through Nonideal Contacts in Hot-Carrier Solar Cells. Physical Review Applied. 20(3). 3 indexed citations
6.
Pusch, Andreas, Michael P. Nielsen, Udo Römer, et al.. (2022). Constraints imposed by the sparse solar photon flux on upconversion and hot carrier solar cells. Solar Energy. 237. 44–51. 3 indexed citations
7.
Tabernig, Stefan W., Anastasia Soeriyadi, Udo Römer, et al.. (2022). Avoiding Shading Losses in Concentrator Photovoltaics Using a Soft-Imprinted Cloaking Geometry. IEEE Journal of Photovoltaics. 12(5). 1116–1127. 5 indexed citations
8.
Pusch, Andreas, Stephen Bremner, Murad J. Y. Tayebjee, & Nicholas J. Ekins‐Daukes. (2021). Microscopic reversibility demands lower open circuit voltage in multiple exciton generation solar cells. Applied Physics Letters. 118(15). 4 indexed citations
9.
Pusch, Andreas, Miloš Dubajić, Nicholas J. Ekins‐Daukes, & Stephen Bremner. (2020). Fundamental Aspects of Hot Carrier Solar Cell Operation. 2227–2232. 1 indexed citations
10.
Ekins‐Daukes, Nicholas J., et al.. (2020). Generating Power at Night Using a Thermoradiative Diode, How is this Possible?. UNSWorks (University of New South Wales, Sydney, Australia). 2214–2218. 5 indexed citations
11.
Pusch, Andreas, Phoebe Pearce, & Nicholas J. Ekins‐Daukes. (2019). Analytical Expressions for the Efficiency Limits of Radiatively Coupled Tandem Solar Cells. IEEE Journal of Photovoltaics. 9(3). 679–687. 15 indexed citations
12.
Choi, Hyunjoo, In Hyung Baek, Bong Joo Kang, et al.. (2017). Control of terahertz nonlinear transmission with electrically gated graphene metadevices. Scientific Reports. 7(1). 42833–42833. 10 indexed citations
13.
Bello, Frank, et al.. (2017). Combining ε-Near-Zero Behavior and Stopped Light Energy Bands for Ultra-Low Reflection and Reduced Dispersion of Slow Light. Scientific Reports. 7(1). 8702–8702. 7 indexed citations
14.
Yoshida, Megumi, Andreas Pusch, Nicholas P. Hylton, et al.. (2016). Quantum Cascade Photon Ratchets for Intermediate-Band Solar Cells. IEEE Journal of Photovoltaics. 6(3). 673–678. 9 indexed citations
15.
Pusch, Andreas, Megumi Yoshida, Nicholas P. Hylton, et al.. (2016). The purpose of a photon ratchet in intermediate band solar cells. 9–12. 1 indexed citations
16.
Pusch, Andreas, Andrea De Luca, Sang Soon Oh, et al.. (2015). A highly efficient CMOS nanoplasmonic crystal enhanced slow-wave thermal emitter improves infrared gas-sensing devices. Scientific Reports. 5(1). 17451–17451. 45 indexed citations
17.
Pusch, Andreas, Ilya V. Shadrivov, Ortwin Hess, & Yuri S. Kivshar. (2013). Self-focusing of femtosecond surface plasmon polaritons. Optics Express. 21(1). 1121–1121. 17 indexed citations
18.
Wuestner, Sebastian, Andreas Pusch, Kosmas L. Tsakmakidis, Joachim M. Hamm, & Ortwin Hess. (2010). Overcoming Losses with Gain in a Negative Refractive Index Metamaterial. Physical Review Letters. 105(12). 127401–127401. 225 indexed citations
19.
Pusch, Andreas, Sebastian Weber, & Markus Porto. (2008). Generating random networks with given degree-degree correlations and degree-dependent clustering. Physical Review E. 77(1). 17101–17101. 13 indexed citations
20.
Pusch, Andreas, Sebastian Weber, & Markus Porto. (2008). Impact of topology on the dynamical organization of cooperation in the prisoner’s dilemma game. Physical Review E. 77(3). 36120–36120. 70 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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