Quantum Transport in Interacting Nanojunctions

Quantum Transport in Interacting Nanojunctions

A Density Matrix Approach

von

Donarini, AndreaGrifoni, Milena

BuchKartoniert, Paperback

EUR89,00

BuchEUR89,00

E-BookEUR90,94

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Produktbeschreibung

This book serves as an introduction to the growing field of quantum many-body transport in interacting nanojunctions. It delves into a theoretical approach based on a general density-matrix formulation for open quantum systems. In the book, relevant transport observables, like the current or its higher order cumulants, are obtained by evaluating quantum statistical averages. This approach requires the knowledge of the reduced density matrix of the interacting nanosystems.

The formulation for addressing transport problems, based on the evolution of the reduced density operator in Liouville space, is highly versatile. It enables the treatment of charge and spin transport across various realistic nanostructures. Topics encompass standard Coulomb blockade, cotunneling phenomena in quantum dots, vibrational and Franck-Condon effects in molecular junctions, as well as many-body interference observed in double quantum dots or carbon nanotubes.

Derived from lectures tailored for graduate and advanced students at the University of Regensburg in Germany, this book is enriched with exercises and step-by-step derivations.

Details

ISBN/GTIN978-3-031-55618-0

ProduktartBuch

EinbandKartoniert, Paperback

VerlagSpringer

ErscheinungsortCham

ErscheinungslandSchweiz

Erscheinungsdatum08.09.2024

Auflage1st ed. 2024

ReiheLecture Notes in Physics

Seiten574 Seiten

SpracheEnglisch

Illustrationen5 s/w Abbildungen, 133 farbige Abbildungen

Artikel-Nr.16555172

KatalogVLB

Datenquelle-Nr.c31d960489aa4e7dad670bf14d60a765

WarengruppeNaturwissenschaften, Medizin, Informatik, Technik | Physik, Astronomie | Atomphysik, Kernphysik

Weitere Details

Reihe

A Mathematical Introduction to Conformal Field Theory

CFN Lectures on Functional Nanostructures - Volume 2

Microscopic Foundations of Relativistic Fluid Dynamics

The Physics of Dew, Breath Figures and Dropwise Condensation

An Introduction to Non-Abelian Discrete Symmetries for Particle Physicists

Interplay of Quantum Mechanics and Nonlinearity

The Theory of Direct Dark Matter Detection

Understanding the Origin of Matter

Experimental Gravitation

Particle Polarization in High Energy Physics

Foundations of Quantum Mechanics

The Euroschool on Exotic Beams, Vol. VI

Perturbative Aspects of the Deconfinement Transition

Non-equilibrium Thermodynamics

Mellin-Barnes Integrals

Introduction to Quantum Technologies

Relativistic Quantum Invariance

Advanced Electromagnetic Theory

Experimental Techniques in Modern High-Energy Physics

Statistical Methods for Data Analysis

Coherent States

The Flight of a Relativistic Charge in Matter

Gravitational Waves from a Quantum Field Theory Perspective

Theory of Disordered Solids

Field Theoretic Method in Phase Transformations

Relativistic Quantum Invariance

Modified and Quantum Gravity

Sketches of Physics

Strings to Strings

Structure and Dynamics of Compact Stars

Some Unusual Topics in Quantum Mechanics

Gravity, Cosmology, and Astrophysics

Introduction to Muon Spin Spectroscopy

Scattering Amplitudes in Quantum Field Theory

Effective Field Theory for Spontaneously Broken Symmetry

Colloids and the Depletion Interaction

Quantum Transport in Interacting Nanojunctions

New Trends and Platforms for Quantum Technologies

Introductory Lectures on Higher-Spin Theories

Geometry and Topology of Low Dimensional Systems

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Autor/in

Donarini, AndreaGrifoni, Milena

Andrea Donarini is an apl. professor within the Quantum Transport and Spintronics chair at the University of Regensburg (Germany), where he teaches and conducts research in the field of quantum transport at the nanoscale. He graduated from the University of Milan (Italy) before earning his PhD in Physics at the Technical University of Denmark (Lyngby). Since then, he has advanced his career at the University of Regensburg, being appointed an apl. Professor in 2020. Prof. Donarini's research primarily focuses on the transport characteristics of complex interacting nanojunctions. Specifically, he has explored various aspects of the interplay between interference and interaction in single molecule junctions and quantum dot structures. His quest to identify markers of many-body interference phenomena, both in current and noise, has led him to investigate single electron transistors, STM single molecule junctions, nanoelectromechanical systems, and most recently, lightwave-STM junctions.

Milena Grifoni is a professor of Theoretical Physics at the University of Regensburg (Germany), where she leads a research group studying non-equilibrium properties of open quantum systems. She obtained her Master's degree and PhD at the University of Genoa (Italy). Following a post-doctoral phase in Germany, she became a permanent staff member at the Technical University of Delft (The Netherlands). In 2003, she assumed a chair for theoretical physics in Regensburg. Prof. Grifoni's work has predominantly focused on the dynamical and stationary properties of open quantum systems. This includes investigating dissipative properties of quantum particles interacting with bosonic thermal reservoirs, as well as electronic transport in non-equilibrium fermionic environments. She is recognized for influential contributions to the driven spin-boson problem, which have found recent applications in superconducting qubit platforms. Additionally, her studies on the non-equilibrium Kondo effect and other many-body phenomena in carbon nanotubes, molecules, and other low-dimensional systems have made significant contributions to the field.