edited by A R Bishop (Los Alamos National Laboratory, USA) , S R Shenoy (ICTP, Italy) , & S Sridhar (Northeastern University, USA)

There is considerable interest in the intrinsically multiscale structure and dynamics of complex electronic oxides, especially since these materials include those of technological importance, such as colossal magnetoresistance manganites and cuprate high temperature superconductors. Current microscopies, such as diffuse X-ray and inelastic neutron scattering, electromagnetic and acoustic response, NMR and scanning tunneling microscope probes, have revealed static and dynamic multiscale patterns in charge positioning, lattice structure and magnetic orientation, that respond to both external stress and magnetic field. These self-organized patterns include charge and orbital ordering; stripes in strain/spin; and labyrinth-like conductance modulations. The materials exhibit nanoscale phase segregation and mesoscale inhomogeneous clustering, and their phase transitions can have a percolative character.

This volume presents experimental and theoretical work on these exciting new developments in condensed matter physics and materials science.

• Essential Heterogeneities in Hole-Doped Cuprate Superconductors (K A Müller)
• The Chain Layer of YBCO: A Close-Up View with STM (A de Lozanne)
• Dynamic Inhomogeneities in Cuprates and Charge-Density Wave Systems (D Mihailovic)
• Lattice and Eelectronic Instabilities in Oxides (A Bussmann-Holder)
• Constrasting Pathways to Mott Gap Collapse in Electron and Hole Doped Cuprates (R S Markiewicz)
• Superconductivity and the Stripe State of Transition Metal Oxides (A H Castro Neto)
• Anelastic Measurements of the Dynamics of Lattice, Charge and Magnetic Inhomogeneities in Cuprates and Manganites (F Cordero et al.)
• Phonon Mechanism of High-Temperature Superconductivity (T Egami)
• and other papers