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  • Quantum Metrology with Photoelectrons Vol. 3: Analysis methodologies

Frontmatter

  • About the authors
  • Abstract
  • A note on book versions, formats and conventions

Part I - Theory & software

  • 1. Introduction
  • 2. Quantum metrology software platform/ecosystem overview
  • 3. Theory
    • 3.1. Photoionization dynamics
    • 3.2. Symmetry in photoionization
    • 3.3. Tensor formulation of photoionization
    • 3.4. Density matrix representation
    • 3.5. Molecular alignment
    • 3.6. Observables: photoelectron flux in the LF and MF
    • 3.7. Information content & sensitivity
  • 4. Numerical methodologies for extracting matrix elements

Part II - Extracting matrix elements - numerical methods & case studies

  • 5. Extracting matrix elements overview
  • 6. Basis sets for fitting
  • 7. General fit setup and numerics
  • 8. Case study: Generalised bootstrapping for a homonuclear diatomic scattering system, \(N_2~(D_{\infty h})\)
  • 9. Case study: Generalised bootstrapping for a linear heteronuclear scattering system, \(OCS~(C_{\infty v})\)
  • 10. Case study: Generalised bootstrapping for a general asymmetric top scattering system, \(C_2H_4~(D_{2h})\)
  • 11. Case studies: summaries, conclusions and outlook

Backmatter

  • Bibliography
  • Glossary

Builds and versions

  • Build versions and config tests
  • Repository
  • Open issue

Index

A | B | C | E | F | G | H | L | M | P | R | S | V | W

A

  • ADMs
  • AF
  • anisotropy paramters
  • axis distribution moments

B

  • bootstrap retrieval protocol

C

  • channel functions

E

  • Euler angles

F

  • frame rotation

G

  • geometric coupling parameters

H

  • HOMO

L

  • LF

M

  • MF
  • molecular alignment
  • MS

P

  • PADs
  • partial-wave expansion
  • partial-waves
  • PG

R

  • radial matrix elements
  • RWP

S

  • symmetrized harmonics

V

  • VMI

W

  • Wigner rotation matrix elements

By Paul Hockett with Varun Makhija

© Copyright 2022.