1. Attosecond spectroscopy for the investigation of ultrafast dynamics in atomic, molecular and solid-state physics, R. Borrego-Varillas, Matteo Lucchini and Mauro Nisoli, Rep. Prog. Phys. 85 066401 (2022).
2. Ferenc Krausz, Electrons in Motion: Attosecond Physics Explores Fastest Dynamics, World Scientific Publishing Company, 2019.
3. C. D. Lin, Anh-Thu Le, Cheng Jin, Attosecond and Strong-Field Physics: Principles and Applications, Cambridge University Press, 2018.
4. Attosecond chronoscopy of photoemission, R. Pazourek, S. Nagele and J. Burgdörfer, Reviews of Modern Physics 87, 765-802 (2015).
5. Thomas Schultz and Marc Vrakking, Attosecond and XUV Physics: Ultrafast Dynamics ans Spectroscopy, Wiley-VCH, 2014.
6. Attosecond metrology: from electron capture to future signal processing, F. Krausz and M. I. Stockman, Nat. Photon 8, 205-213, (2014).
7. Jie Liu, Classical Trajectory Perspective of Atomic Ionization in Strong Laser Fields: Semiclassical Modeling, Springer, 2014.
8. Armin Scrinzi, Attosecond Physics – Theory, Independent Publishing Platform, 2014.
9. Luis Plaja, Ricardo Torres and Amelle Zaïr, Attosecond Physics: Attosecond Measurements and Control of Physical Systems, Springer, 2013.
10. Valeriy Astapenko, Interaction of Ultrashort Electromagnetic Pulses with Matter, Springer, 2013.
11. Frank Grossmann, Theoretical Femtosecond Physics: Atoms and Molecules in Strong Laser Fields, Springer, 2013.
12. C. J. Joachain, N. J. Kylstra, R. M. Potvliege, Atoms in Intense Laser Fields, Cambridge University Press (Cambridge), 2012.
13. Peter Musler and Dieter Bauer, High Power Laser-Matter Interaction, Springer, 2010.
14. C. Rullière, Femtosecond Laser Pulses: Principles and experiments, Chap. XIII, Springer, 2005.
15. Attophysics: Atomic photography, Louis Di Mauro, Nature 419, 789 (2002).
16. Atoms in strong laser fields, Anne L’Huillier, Europhysics News 33 No 6 (2002).
17. X-ray Pulses Approaching the Attosecond Frontier, M. Drescher, M. Hentschel, R. Kienberger, G. Tempea, C. Spielmann, G. A. Reider, P. B. Corkum, and F. Krausz., Science 291, 1923 (2001).

Bibliografía complementaria:

• Harald Friedrich, Scattering Theory, Springer, 2013.
• Claude Cohen-Tannoudji and David Guéry-Odelin, Advances in Atomic Physics, World Scientific, 2011.
• Intracycle and Intercycle Interferences in Above-Threshold Ionization: The Time Grating, D. G. Arbó et al., Phys. Rev. A 81, 021403(R) (2010).
• D. J. Tannor, Introduction to Quantum Mechanics: A time-dependent perspective, University Science Books, 2007.
• H. Friedrich, Theoretical Atomic Physics, Springer-Verlag (Berlin), 2006.
• The physics of attosecond light pulses, P. Agostini and L. F. Di Mauro, Reports on Progress in Physics 67 813-855 (2004).
• Ultrafast lasers. Strobe light breaks the attosecond barrier, R. F. Service, Science 292, 1627 (2001).
• Absolute-phase phenomena in photoionization with few-cycle laser pulses, G. G. Paulus et al., Nature 414, 182 (2001).
• Toward Attosecond Pulses, Derryck Reid, Science 291, 1911 (2001).
• X.-M. Tong and Chu, Chem. Phys. 217, 119 (1997).
• Rings in above-threshold ionization: A quasiclassical analysis, M. Lewenstein, K. C. Kulander, K. J. Schafer, P. H. Bucksbaum, Phys. Rev. A 51, 1495 (1995). Theory of high-harmonic generation by low-frequency laser fields, M. Lewenstein. Ph. balcou, M. Yu. Ivanov, A. L’Huillier, P.B. Corkum, Phys. Rev. A 49 2117 (1994).
• M. Ya. Amusia, Atomic Photoeffect, Plenum Press, (NY), 1990.
• F. H. M. Faisal, Theory of Multiphoton Processes, Plenum Press (NY), 1987.