Maxim Karpov

7.5k citations

72 papers · 4.6k indexed · 5 hit papers · h-index 20

Electrical and Electronic Engineering top 0.5%
Atomic and Molecular Physics, and Optics top 0.5%
Artificial Intelligence top 1%
Statistical and Nonlinear Physics top 2%
Biomedical Engineering

Co-authors: Tobias J. Kippenberg Junqiu Liu Martin H. P. Pfeiffer Erwan Lucas Arne Kordts Anton Lukashchuk Hairun Guo Victor Brasch
Topics: Advanced Fiber Laser Technologies (68 papers)Photonic and Optical Devices (50 papers)Laser-Matter Interactions and Applications (15 papers)
Cited by: Atomic and Molecular Physics, and Optics Electrical and Electronic Engineering Instrumentation
Journals: Nature Science Physical Review Letters
Partner nations: Switzerland United States Israel

In The Last Decade

Maxim Karpov

66 papers receiving 4.4k citations

Hit Papers

5 papers align trajectories

What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

Parallel convolutional processing using an integrated photonic tensor core

2021 971 citations Anton Lukashchuk, Manuel Le Gallo et al. Oxford University Research Archive (ORA) (University of Oxford) profile →
Microresonator-based solitons for massively parallel coherent optical communications

2017 811 citations Pablo Marin-Palomo, J. N. Kemal et al. Nature profile →
Ultrafast optical ranging using microresonator soliton frequency combs

2018 537 citations P. Trocha, Maxim Karpov et al. Science profile →
Massively parallel coherent laser ranging using a soliton microcomb

2020 413 citations Johann Riemensberger, Anton Lukashchuk et al. Nature profile →
Photonic microwave generation in the X- and K-band using integrated soliton microcombs

2020 275 citations Junqiu Liu, Erwan Lucas et al. Nature Photonics profile →

Peers

Countries citing papers authored by Maxim Karpov

Since Specialization

Citations

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

Fields of papers citing papers by Maxim Karpov

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Maxim Karpov

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

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	A 262 TOPS hyperdimensional photonic AI accelerator powered by a Si3N4 microcomb laser 2025 ·APL Photonics ·Christos Pappas,(unknown),(unknown),Manos Kirtas,(unknown),Apostolos Tsakyridis,Miltiadis Moralis‐Pegios,Christos Vagionas,Nikolaos Passalis,(unknown),(unknown),Alain Yuji Takabayashi,J. D. Jost,Maxim Karpov,Anastasios Tefas,Nikos Pleros	1
2	Dual chirped microcomb based parallel ranging at megapixel-line rates 2022 ·Nature Communications ·Anton Lukashchuk,Johann Riemensberger,Maxim Karpov,Junqiu Liu,Tobias J. Kippenberg	47
3	Tunability of space-time wave packet carrying tunable and dynamically changing OAM value 2022 ·Optics Letters ·Kaiheng Zou,Xinzhou Su,Мurat Yessenov,Kai Pang,(unknown),Maxim Karpov,Hao Song,Runzhou Zhang,Huibin Zhou,Tobias J. Kippenberg,Moshe Tur,Ayman F. Abouraddy,Alan E. Willner	13
4	Publisher Correction: Parallel convolutional processing using an integrated photonic tensor core 2021 ·Nature ·Johannes Feldmann,Nathan Youngblood,Maxim Karpov,Helge Gehring,X. Li,Maik Stappers,Manuel Le Gallo,Xin Fu,Anton Lukashchuk,Arslan S. Raja,Junqiu Liu,C. David Wright,Abu Sebastian,Tobias J. Kippenberg,Wolfram H. P. Pernice,Harish Bhaskaran	19
5	Parallel convolutional processing using an integrated photonic tensor corebreakdown → 2021 ·Oxford University Research Archive (ORA) (University of Oxford) ·Anton Lukashchuk,Manuel Le Gallo,Abu Sebastian,Junqiu Liu,Xin Fu,Harish Bhaskaran,Nathan Youngblood,Johannes Feldmann,(unknown),Helge Gehring,Maxim Karpov,C. David Wright,X. Li,Tobias J. Kippenberg,Wolfram H. P. Pernice,Maik Stappers	971
6	Photonic microwave generation in the X- and K-band using integrated soliton microcombsbreakdown → 2020 ·Nature Photonics ·Junqiu Liu,Erwan Lucas,Arslan S. Raja,Jijun He,Johann Riemensberger,Rui Ning Wang,Maxim Karpov,Hairun Guo,Romain Bouchand,Tobias J. Kippenberg	275
7	Author Correction: Photonic microwave generation in the X- and K-band using integrated soliton microcombs 2020 ·Nature Photonics ·Junqiu Liu,Erwan Lucas,Arslan S. Raja,Jijun He,Johann Riemensberger,Rui Ning Wang,Maxim Karpov,Hairun Guo,Romain Bouchand,Tobias J. Kippenberg	3
8	Massively parallel coherent laser ranging using a soliton microcombbreakdown → 2020 ·Nature ·Johann Riemensberger,Anton Lukashchuk,Maxim Karpov,Wenle Weng,Erwan Lucas,Junqiu Liu,Tobias J. Kippenberg	413
9	Reconfigurable radiofrequency filters based on versatile soliton microcombs 2020 ·Nature Communications ·Jianqi Hu,Jijun He,Junqiu Liu,Arslan S. Raja,Maxim Karpov,Anton Lukashchuk,Tobias J. Kippenberg,Camille‐Sophie Brès	53
10	Photonic microwave oscillators based on integrated soliton microcombs 2019 ·arXiv (Cornell University) ·Junqiu Liu,Erwan Lucas,Jijun He,Arslan S. Raja,Rui Ning Wang,Maxim Karpov,Hairun Guo,Romain Bouchand,Tobias J. Kippenberg	4
11	Dynamics of soliton crystals in optical microresonators 2019 ·Nature Physics ·Maxim Karpov,Martin H. P. Pfeiffer,Hairun Guo,Wenle Weng,Junqiu Liu,Tobias J. Kippenberg	152
12	Advanced dispersion engineering of dispersive waves in Si 3 N 4 microresonators 2019 ·Conference on Lasers and Electro-Optics ·Anton Lukashchuk,(unknown),Maxim Karpov,Junqiu Liu,Tobias J. Kippenberg	1
13	Electrically Driven Ultra-Compact Photonic Integrated Soliton Microcomb 2019 ·Conference on Lasers and Electro-Optics ·Arslan S. Raja,Andrey Voloshin,Hairun Guo,(unknown),Junqiu Liu,(unknown),Maxim Karpov,Nikolay G. Pavlov,Erwan Lucas,(unknown),Artem E. Shitikov,J. D. Jost,M. L. Gorodetsky,Tobias J. Kippenberg	0
14	Perfect soliton crystals in optical microresonators 2019 ·Conference on Lasers and Electro-Optics ·Maxim Karpov,Martin H. P. Pfeiffer,Hairun Guo,Junqiu Liu,Wenle Weng,Tobias J. Kippenberg	0
15	Ultrafast optical ranging using microresonator soliton frequency combsbreakdown → 2018 ·Science ·P. Trocha,Maxim Karpov,(unknown),Martin H. P. Pfeiffer,Arne Kordts,S. Wolf,(unknown),Pablo Marin-Palomo,C. Weimann,Sebastian Randel,W. Freude,Tobias J. Kippenberg,C. Koos	537
16	Scalable and Reconfigurable Optical Tap-Delay-Line for Multichannel Equalization and Correlation of 20-Gbaud QPSK Signals using Nonlinear Wave Mixing and a Microresonator Kerr Frequency Comb 2018 ·Infoscience (Ecole Polytechnique Fédérale de Lausanne) ·Ari N. Willner,Peicheng Liao,Kaiheng Zou,Arne Kordts,Maxim Karpov,Yinwen Cao,Ahmed Almaiman,Ahmad Fallahpour,Fatemeh Alishahi,Moshe Tur,Tobias J. Kippenberg,Alan E. Willner	1
17	Photonic chip-based soliton frequency combs covering the biological imaging window 2018 ·Nature Communications ·Maxim Karpov,Martin H. P. Pfeiffer,Junqiu Liu,Anton Lukashchuk,Tobias J. Kippenberg	53
18	Soliton dual frequency combs in crystalline microresonators 2017 ·Optics Letters ·Nikolay G. Pavlov,G. Lihachev,S. Koptyaev,Erwan Lucas,Maxim Karpov,Nikita M. Kondratiev,Igor A. Bilenko,Tobias J. Kippenberg,M. L. Gorodetsky	78
19	Microresonator-based solitons for massively parallel coherent optical communicationsbreakdown → 2017 ·Nature ·Pablo Marin-Palomo,J. N. Kemal,Maxim Karpov,Arne Kordts,Joerg Pfeifle,Martin H. P. Pfeiffer,P. Trocha,S. Wolf,Victor Brasch,Miles Anderson,(unknown),Kovendhan Vijayan,W. Freude,Tobias J. Kippenberg,C. Koos	811
20	Raman Self-Frequency Shift of Dissipative Kerr Solitons in an Optical Microresonator 2016 ·Physical Review Letters ·Maxim Karpov,Hairun Guo,Arne Kordts,Victor Brasch,Martin H. P. Pfeiffer,(unknown),Michael Geiselmann,Tobias J. Kippenberg	192

About Maxim Karpov

Maxim Karpov is a scholar working on Atomic and Molecular Physics, and Optics, Electrical and Electronic Engineering and Statistical and Nonlinear Physics, having authored 72 papers that have together received 4.6k indexed citations. Recurring topics across this work include Advanced Fiber Laser Technologies (68 papers), Photonic and Optical Devices (50 papers) and Laser-Matter Interactions and Applications (15 papers). The work is most often cited by research in Atomic and Molecular Physics, and Optics (3.6k citations), Electrical and Electronic Engineering (4.0k citations) and Instrumentation (179 citations). Maxim Karpov has collaborated with scholars based in Switzerland, United States and Israel. Frequent co-authors include Tobias J. Kippenberg, Junqiu Liu, Martin H. P. Pfeiffer, Erwan Lucas, Arne Kordts, Anton Lukashchuk, Hairun Guo, Victor Brasch, S. Wolf and C. Koos. Their work appears in journals such as Nature, Science and Physical Review Letters.

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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