Quantum entanglement in electron optics: generation, characterization, and applications

This monograph forms an interdisciplinary study in atomic, molecular, and quantum information (QI) science. Here a reader will find that applications of the tools developed in QI provide new physical insights into electron optics as well as properties of atoms & molecules which, in turn, are useful in studyingQI both at fundamental and applied levels. In particular, this book investigates entanglement properties of flying electronic qubits generated in some of the well known processes capable of taking place in an atom or a molecule following the absorption of a photon. Here, one can generate Coulombic or fine-structure entanglement of electronic qubits. The properties of these entanglementsdiffer not only from each other, but also from those when spin of an inner-shell photoelectron is entangled with the polarization of the subsequent fluorescence. Spins of an outer-shell electron and of a residual photoion can have free or bound entanglement in a laboratory. Provides a first multi-disciplinary study combining atomic and molecular physics with quantum information. Considers quantum entanglement in electron optics. Contains a generic computer programme needed for calculating density matrices suitable for studying electron optics using tools from quantum information. INDICE: Introduction and Preliminaries. Quantum Information: Basic Relevant Concepts and Applications. Theory. Part I: Atomic Processes. Part II: Molecular Processes.

• ISBN: 978-3-642-24069-0
• Editorial: Springer Berlin Heidelberg
• Encuadernacion: Cartoné
• Páginas: 290
• Fecha Publicación: 31/12/2011
• Nº Volúmenes: 1
• Idioma: Inglés