Roadmap on Attosecond Science

Rocio Borrego Varillas; Pierre Agostini; Fernando Ardana-Lamas; Cord L. Arnold; David Ayuso; Maurizio Reduzzi; Jakub Benda; Jens Biegert; Charles Bourassin-Bouchet; Thomas Brabec; Christian Brahms; Andrew C. Brown; David Busto; J\'er\'emie Caillat; Francesca Calegari; Carlo Callegari; Stefanos Carlstr\"om; Zenghu Chang; Ming-Chang Chen; Anna G. Ciriolo; Paul Corkum; Gabriele Crippa; Rafael de Q. Garcia; Louis DiMauro; Nirit Dudovich; Per Eng-Johnsson; Davide Faccial\`a; Philip Flores; Titouan Gadeyne; Gianluca Aldo Geloni; Chase Geirger; Shima Gholam-Mirzaei; Jimena D. Gorfinkiel; Eleftherios Goulielmakis; Mohammed Hassan; Carlos Hern\'andez-Garc\'ia; Phay Ho; Dandan Hui; Lynda R. Hutcheson; Misha Ivanov; Subhendu Kahaly; Henry Kapteyn; Nicholas Karpowicz; Franz X. K\"artner; Matthias Kling; Omer Kneller; Dong Hyuk Ko; Peter M. Kraus; Maximilian Kubullek; Stephen R. Leone; Franck L\'epine; Anne L'Huillier; Chen-Ting Liao; Thomas Linker; Alexander Gabriel Lohr; Matteo Lucchini; Lars Bojer Madsen; Roland E. Mainz; Bal\'azs Major; Jon P. Marangos; David Marco; Hugo Marroux; Sean Marshallsay; Rebeca Mart\'inez V\'azquez; Rodrigo Mart\'in-Hern\'andez; Zden\v{e}k Ma\v{s}\'in; Michael Meyer; Felipe Morales Moreno; Margaret Murnane; Daniel M. Neumark; Mauro Nisoli; Marcus Ossiander; Sreelakshmi Palakka; Serguei Patchkovskii; Zekun Pi; Luis Plaja; Julita Poborska; Miguel A. Porras; Kevin C. Prince; David N. Purschke; Nicolette G. Puskar; Giulio Maria Rossi; J\'er\'emy R. Rouxel; Thierry Ruchon; Patrick Rupprecht; Pascal Sali\`eres; Giuseppe Sansone; Fabian Scheiba; Martin Schultze; Bernd Sch\"utte; Svitozar Serkez; Miguel A. Silva-Toledo; Olga Smirnova; Salvatore Stagira; Andrea Trabattoni; John C. Travers; Igor Tyulnev; Morgane Vacher; Giulio Vampa; Hugo W. van der Hart; Katalin Varj\'u; Anne-Lise Viotti; Vartika Vishnoi; Marc Vrakking; Vincent Wanie; Stefan Witte; Fei Xu; Vladislav S. Yakovlev; Linda Young; Diling Zhu; Caterina Vozzi

arXiv:2604.15085·physics.optics·April 17, 2026

Roadmap on Attosecond Science

Rocio Borrego Varillas, Pierre Agostini, Fernando Ardana-Lamas, Cord L. Arnold, David Ayuso, Maurizio Reduzzi, Jakub Benda, Jens Biegert, Charles Bourassin-Bouchet, Thomas Brabec, Christian Brahms, Andrew C. Brown, David Busto, J\'er\'emie Caillat, Francesca Calegari

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TL;DR

This roadmap reviews the past 25 years of attosecond science, highlighting recent advances in pulse generation, measurement techniques, and applications in probing electron dynamics across various systems.

Contribution

It provides a comprehensive overview of recent progress and future directions in attosecond pulse technology, measurement methods, and applications in electron dynamics research.

Findings

01

Advances in attosecond light sources and pulse generation techniques.

02

Development of novel measurement and control methodologies.

03

Emerging applications in molecular and condensed matter electron dynamics.

Abstract

Twenty-five years have passed since the first experimental demonstration of attosecond pulses, marking the advent of our ability to resolve and control electron motion in real time. What began as a technological breakthrough - generating the shortest flashes ever produced - has evolved into a powerful approach for probing and steering electronic dynamics in atoms, molecules, and solids. This roadmap, authored by leading experts in the field, surveys the recent rapid progress in the generation and characterization of attosecond pulses, emerging attosecond measurement and control techniques, and their expanding range of applications. It reviews current and future developments in attosecond light sources, including novel laser technologies, waveform synthesizers, new schemes for high-order harmonic generation, attosecond pulse generation at free-electron lasers, and structured light.…

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