p. IFC
p. iii-iv
Physique de la matière condensée au XXIe siècle : l'héritage de Jacques Friedel
Métallurgie fondamentale et métallurgie numérique : l'héritage de Jacques Friedel dans la théorie de la plasticité des métaux et alliages
[Fundamental metallurgy and numerical metallurgy: The legacy of Jacques Friedel in the theory of plasticity of metals and alloy]
p. 237-241
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Dislocations and other topological oddities
p. 242-263
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Dislocations in a quantum crystal Solid helium: A model and an exception
p. 264-275
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Jacques Friedel and the physics of metals and alloys
p. 276-290
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
How the Friedel oscillations entered the physics of metallic alloys
p. 291-293
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Friedel oscillations in graphene-based systems probed by Scanning Tunneling Microscopy
p. 294-301
A tribute to Jacques Friedel / Hommage à Jacques Friedel
Friedel oscillations: Decoding the hidden physics
p. 302-321
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
One-dimensional physics in the 21st century
p. 322-331
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
The Peierls instability and charge density wave in one-dimensional electronic conductors
p. 332-356
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Novel superconducting phenomena in quasi-one-dimensional Bechgaard salts
p. 357-375
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Rapid magnetic oscillations and magnetic breakdown in quasi-1D conductors
p. 376-388
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Structure of covalently bonded materials: From the Peierls distortion to Phase-Change Materials
p. 389-405
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
An efficient magnetic tight-binding method for transition metals and alloys
p. 406-429
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
The beauty of impurities: Two revivals of Friedel's virtual bound-state concept
p. 430-446
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
The longevity of Jacques Friedel's model of the virtual bound state
p. 447-454
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Quantum kagome frustrated antiferromagnets: One route to quantum spin liquids
p. 455-470
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Insulating oxide surfaces and nanostructures
p. 471-480
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
Silver and oxygen: Transition from clusters to nanoparticles
p. 481-484
Condensed matter physics in the 21st century: The legacy of Jacques Friedel
A versatile lab-on-chip test platform to characterize elementary deformation mechanisms and electromechanical couplings in nanoscopic objects
p. 485-495
p. IBC