Map
A note on the online materials
A note on the references
Preface
Acknowledgments
Part I Concepts and fundamentals
1 Introduction: concepts in photoionization interferometry
1.1 ntum metrology
1.2 Construction and deconstruction of paradigms: photoionization as
interferometry
1.3 Something old, something new: photoelectron spectroscopy
charged-particle imaging, technology, complexity and emergence
1.4 Putting illtgether: quantum metrology with photoelectrons
References
2 Fundamentals of photoelectron interferograms
2.1 Continuum wavefunctions, observables and information content
2.1.1 Concepts
2.1.2 Continuum scattering states
2.1.3 Observables (general form)
2.1.4 Information content
2.2 Photoionization and photoelectron interferograms in detail
2.2.1 Dipole interactions, the weak field limindphtons
2.2.2 Coulombic systems: photoionization of one-electron atoms
2.. Non-Coulombic systems: general introduction to molecular
photoionization
2.2.4 Non-Coulombic systems: single-photon ionization
References
3 Multi-photon processes
3.1 Molecular photoionization from prepared states
3.1.1 State-selected measurements
3.1.2 Rotational wavepackesndmlecular alignment
3.1.3 Generic n-state wavepacket model
3.1.4 Born-Oppenheimer wavepacket treatment
3.2 Light and matter
3.2.1 Shaped laser pulses: intra-pulse dynamics an mtplexing
3.2.2 XUV + IR fields: optical phase effects
References
Part II Examples and numerics
4 Scattering wavefunctions and photoionization
Coulombic systems
4.1 Coulomb wavefunctions
4.2 Hydrogenic bound states
4.3 Dipole matrix elemensndbservables
4.4 Discussion
References
5 Scattering wavefunctions and photoionization
non-Coulombic systems
5.1 Computational tools
5.1.1 Toolchain
5.1.2 ePolyScat matrix elements