International Tables for Crystallography
Volume I: X-ray absorption spectroscopy and related techniques

First online edition (2020)   ISBN: 978-1-119-43394-1   doi: 10.1107/97809553602060000116  

Edited by C. T. Chantler, F. Boscherini and B. Bunker

Early view chapters

• • X-ray interactions with matter| html | pdf |
    Christopher T. Chantler and Dudley C. Creagh
  • Tensorial interactions of X-rays| html | pdf |
    Luigi Paolasini and Sergio Di Matteo
  • Multiple-scattering theory of X-ray absorption spectroscopy as a structural tool| html | pdf |
    Calogero R. Natoli, Keisuke Hatada and Didier Sébilleau
  • Multiplet approaches in X-ray absorption spectroscopy| html | pdf |
    Frank de Groot
  • XANES: theory and approaches| html | pdf |
    Takashi Fujikawa
  • EXAFS: theory and approaches| html | pdf |
    J. J. Rehr, J. J. Kas and F. D. Vila
  • Pre-edge structure, selection rules and quadrupole contributions| html | pdf |
    Takashi Yamamoto
  • XAFS with secondary process modalities and introduction to fluorescence and nonradiative processes| html | pdf |
    Christopher T. Chantler
  • Inelastic scattering of electrons in solids| html | pdf |
    Shigeo Tanuma and Cedric J. Powell
  • Green's functions applied to the theory of spectroscopy| html | pdf |
    J. J. Kas, J. J. Rehr and F. D. Vila
  • Finite-difference method for the calculation of X-ray spectroscopies| html | pdf |
    Y. Joly, A. Y. Ramos and O. Bunău
  • Density-functional theory approaches to XAS in solids| html | pdf |
    Peter Blaha
  • Core-hole potentials and related effects| html | pdf |
    Eric L. Shirley, Lars G. M. Pettersson and David Prendergast
  • Thermal effects on EXAFS| html | pdf |
    Paolo Fornasini
  • Relativistic effects on energies, transitions and basis states| html | pdf |
    Alan Hibbert
  • X-ray linear dichroism: dependence of XAFS on the orientation of the sample with respect to the incoming radiation| html | pdf |
    Ondřej Šipr
  • Magnetic ordering and its influence on X-ray spectroscopies| html | pdf |
    Gerrit van der Laan and Adriana Isabel Figueroa
  • Magnetic X-ray techniques| html | pdf |
    Gerrit van der Laan
  • Inelastic X-ray scattering| html | pdf |
    Pieter Glatzel, Amélie Juhin and Marco Moretti
  • X-ray excited optical luminescence| html | pdf |
    Tsun Kong Sham
  • Diffraction anomalous fine structure: basic formalism| html | pdf |
    Hubert Renevier and Maria Grazia Proietti
  • Combined approaches and challenges: XAS and UV–visible and vibrational spectroscopy| html | pdf |
    Stephen P. Best
  • Combined approaches and challenges: X-ray absorption spectroscopy and X-ray diffraction| html | pdf |
    Carlo Castellano
  • Sum rules for the analysis of nuclear resonant absorption spectra| html | pdf |
    Ralf Röhlsberger and Michael Y. Hu
  • Significance and tables of key physico-chemical parameters| html | pdf |
    C. T. Chantler and J. D. Bourke

• • Synchrotron sources| html | pdf |
    D. M. Mills and R. J. Dejus
  • Beamlines| html | pdf |
    Steve M. Heald
  • Bragg crystal monochromators| html | pdf |
    John P. Sutter
  • Grating-based monochromators| html | pdf |
    Steven L. Hulbert
  • Beam drift, control and polarization| html | pdf |
    Sofia Diaz-Moreno and Roberto Boada
  • Micro- and nano-XAFS: spatially resolved XAFS| html | pdf |
    Gema Martinez-Criado
  • X-ray focusing methods for X-ray absorption spectroscopy| html | pdf |
    Alexandre S. Simionovici, Laurence Lemelle and Christian G. Schroer
  • Control of X-ray polarization| html | pdf |
    Motohiro Suzuki
  • Sample preparation| html | pdf |
    Grant Bunker
  • Sample-thickness effects| html | pdf |
    Frank Bridges
  • Accurate data: mapping sample absorption and thickness effects| html | pdf |
    Stephen P. Best and Christopher T. Chantler
  • Liquids and gels| html | pdf |
    Andrea Di Cicco
  • Solutions| html | pdf |
    Grant Bunker
  • Gases| html | pdf |
    Alojz Kodre, Iztok Arčon and Jana Padežnik Gomilšek
  • Ultradilute systems| html | pdf |
    Steve M. Heald
  • Mixed-phase heterogeneity| html | pdf |
    Krystyna Lawniczak-Jablonska
  • Biological samples| html | pdf |
    Ritimukta Sarangi
  • Surfaces| html | pdf |
    Yasuhiro Iwasawa, Kiyotaka Asakura, Hiroshi Kondoh and Mizuki Tada
  • Radioactive samples| html | pdf |
    Jeff Terry
  • XAS cryostats and cryogenic studies| html | pdf |
    Olivier Mathon, Philippe Ohresser and Ricardo Steinmann
  • Cells for spectroscopy of fluids at elevated pressure and temperature| html | pdf |
    Denis Testemale and Joel Brugger
  • Electrochemical cells for in situ XAS studies| html | pdf |
    Kotaro Sasaki
  • Soft X-ray absorption spectra| html | pdf |
    J. C. Woicik and P. Pianetta
  • XAFS and thermodynamic variables (pressure and temperature) to investigate matter| html | pdf |
    Andrea Di Cicco and Adriano Filipponi
  • X-ray magnetic circular dichroism| html | pdf |
    Gerrit van der Laan

• • XAFS spectral distortions related to optics issues| html | pdf |
    Hitoshi Abe

• • Multiple-scattering EXAFS analysis| html | pdf |
    Jing Liu and Anatoly I. Frenkel
  • Statistical measure of confidence| html | pdf |
    Corwin H. Booth
  • Unknown systematics and impact upon information content of data| html | pdf |
    Corwin H. Booth

• • EXCURVE| html | pdf |
    Martin C. Feiters, Richard W. Strange and Norman Binsted
  • The FEFF code| html | pdf |
    J. J. Kas, F. D. Vila and J. J. Rehr
  • GNXAS. I. Phase shifts and signal calculations| html | pdf |
    Adriano Filipponi, Calogero Renzo Natoli and Andrea Di Cicco
  • FPMS: full potential multiple scattering| html | pdf |
    Keisuke Hatada, Junqing Xu, Kuniko Hayakawa and Calogero Renzo Natoli
  • The FDMNES code| html | pdf |
    O. Bunău, A. Y. Ramos and Y. Joly
  • The FDMX code| html | pdf |
    J. D. Bourke
  • XSpectra: a density-functional-theory-based plane-wave pseudopotential code for XANES calculation| html | pdf |
    Delphine Cabaret and Matteo Calandra
  • WIEN2k, an augmented plane wave plus local orbital package for the electronic structure of solids| html | pdf |
    Peter Blaha
  • The OCEAN suite: core excitations| html | pdf |
    Eric L. Shirley, John Vinson and Keith Gilmore
  • exciting core-level spectroscopy| html | pdf |
    Claudia Draxl and Caterina Cocchi
  • ATHENA and ARTEMIS| html | pdf |
    Bruce Ravel and Matthew Newville
  • EDA: EXAFS data-analysis software package| html | pdf |
    Alexei Kuzmin
  • ESTRA and FitEXA| html | pdf |
    Carlo Meneghini, Settimio Mobilio, Fabrizio Bardelli and Carmelo Prestipino
  • FitIt| html | pdf |
    Grigory Smolentsev and Alexander V. Soldatov
  • GNXAS. II. Structural refinement of experimental data| html | pdf |
    Adriano Filipponi, Andrea Di Cicco and Calogero Renzo Natoli
  • IFEFFIT and LARCH| html | pdf |
    Matthew Newville and Bruce Ravel
  • Multiplatform Applications for XAFS (MAX)| html | pdf |
    A. Michalowicz and K. Provost
  • MXAN: a method for the quantitative structural analysis of the XANES energy region| html | pdf |
    Maurizio Benfatto, Giovanni Chillemi and Elisabetta Pace
  • PrestoPronto: a software package for large EXAFS data sets| html | pdf |
    Carmelo Prestipino
  • Real-Space X-ray Absorption Package (RSXAP)| html | pdf |
    Corwin H. Booth and Frank Bridges
  • SIXPACK: a graphical user interface for XAS analysis| html | pdf |
    Samuel M. Webb
  • VIPER and XANES Dactyloscope| html | pdf |
    Konstantin Klementiev
  • xafsX: a program to process, analyse and reduce X-ray absorption fine structure spectra (XAFS)| html | pdf |
    Markus Winterer
  • XFIT| html | pdf |
    James R. Hester and Richard F. Garrett
  • LASE: Logiciel d'Analyse des Spectres Expérimentaux| html | pdf |
    Emmanuel Curis

• • Developing specifications for XAFS information interchange| html | pdf |
    James R. Hester
  • Validation procedures for XAFS| html | pdf |
    James R. Hester

• • Photoexcitation processes in atoms| html | pdf |
    Alojz Kodre, Iztok Arčon and Jana Padežnik Gomilšek
  • Semiconductors| html | pdf |
    Krystyna Lawniczak-Jablonska
  • Many-body quantum physics in XANES of highly correlated materials, mixed-valence oxides and high-temperature superconductors| html | pdf |
    Antonio Bianconi
  • Magnetism and magnetic materials| html | pdf |
    Andrei Rogalev
  • Liquids, glasses and amorphous solids| html | pdf |
    Andrea Di Cicco and Adriano Filipponi
  • X-ray absorption spectroscopy under extreme conditions of pressure| html | pdf |
    Jean-Paul Itié and Sakura Pascarelli
  • Nuclear materials| html | pdf |
    Philippe M. Martin
  • Surfaces and interfaces| html | pdf |
    Kiyotaka Asakura, Hiroshi Kondoh, Mizuki Tada and Yasuhiro Iwasawa
  • Nanoclusters| html | pdf |
    Yuanyuan Li, John J. Rehr, Ralph G. Nuzzo and Anatoly I. Frenkel
  • Selected case studies in heterogeneous catalysis| html | pdf |
    Elisa Borfecchia, Elena Groppo, Silvia Bordiga and Carlo Lamberti
  • EXAFS applications in coordination chemistry| html | pdf |
    Farideh Jalilehvand and Patrick Frank
  • Time-resolved optical pump/X-ray absorption spectroscopy probe| html | pdf |
    Majed Chergui
  • Metalloproteins and systems of biological relevance| html | pdf |
    Richard W. Strange
  • Applications of XAS in earth sciences| html | pdf |
    Max Wilke
  • Environmental applications of X-ray spectroscopy| html | pdf |
    Matthew A. Marcus and Kenneth M. Kemner
  • The use of XAS and related methods in cultural heritage investigations| html | pdf |
    Koen Janssens and Marine Cotte
  • Studies of fundamental photoexcitation and photoelectron-scattering processes| html | pdf |
    J. D. Bourke
  • Quick EXAFS studies in catalysis| html | pdf |
    M. Nachtegaal and R. Frahm

• • X-ray absorption spectroscopy definitions| html | pdf |
    C. T. Chantler