Add to ORKGThe structure of wavefunctions of quantum systems strongly depends on the underlying classical dynamics. In this text a selection of articles on eigenfunctions in systems with fully chaotic dynamics and systems with a mixed phase space is summarized. Of particular interest are statistical properties like amplitude distribution and spatial autocorrelation function and the implication of eigenfunction structures on transport properties. For systems with a mixed phase space the separation into regular and chaotic states does not always hold away from the semiclassical limit, such that chaotic states may completely penetrate into the region of the regular island. The consequences of this flooding are discussed and universal aspects highlighted
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
Lecture notes for the Spring School "From quantum to classical" (CIRM, April 2019)Given a quantum Ha...
The structure of wavefunctions of quantum systems strongly depends on the underlying classical dynam...
The structure of wavefunctions of quantum systems strongly depends on the underlying classical dynam...
The structure of wavefunctions strongly depends on the underlying classical dynamics. We illustrate...
We study the autocorrelation function of different types of eigenfunctions in quantum mechanical sys...
We review the fundamental concepts of quantum chaos in Hamiltonian systems. The quantum evolution of...
We report the failure of the semiclassical eigenfunction hypothesis if regular classical transport c...
We report the failure of the semiclassical eigenfunction hypothesis if regular classical transport c...
We report the failure of the semiclassical eigenfunction hypothesis if regular classical transport c...
We discover a class of chaotic quantum systems for which we obtain some analytically exact eigenfunc...
We study the amplitude distribution of irregular eigenfunctions in systems with mixed classical phas...
This book provides a thorough and comprehensive discussion of classical and quantum chaos theory for...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
Lecture notes for the Spring School "From quantum to classical" (CIRM, April 2019)Given a quantum Ha...
The structure of wavefunctions of quantum systems strongly depends on the underlying classical dynam...
The structure of wavefunctions of quantum systems strongly depends on the underlying classical dynam...
The structure of wavefunctions strongly depends on the underlying classical dynamics. We illustrate...
We study the autocorrelation function of different types of eigenfunctions in quantum mechanical sys...
We review the fundamental concepts of quantum chaos in Hamiltonian systems. The quantum evolution of...
We report the failure of the semiclassical eigenfunction hypothesis if regular classical transport c...
We report the failure of the semiclassical eigenfunction hypothesis if regular classical transport c...
We report the failure of the semiclassical eigenfunction hypothesis if regular classical transport c...
We discover a class of chaotic quantum systems for which we obtain some analytically exact eigenfunc...
We study the amplitude distribution of irregular eigenfunctions in systems with mixed classical phas...
This book provides a thorough and comprehensive discussion of classical and quantum chaos theory for...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
We study the resonance (or Gamow) eigenstates of open chaotic systems in the semiclassical limit, di...
Lecture notes for the Spring School "From quantum to classical" (CIRM, April 2019)Given a quantum Ha...