From Atom Optics to Quantum Simulation
Title | From Atom Optics to Quantum Simulation PDF eBook |
Author | Sebastian Will |
Publisher | Springer Science & Business Media |
Pages | 270 |
Release | 2012-12-15 |
Genre | Science |
ISBN | 3642336337 |
This thesis explores ultracold quantum gases of bosonic and fermionic atoms in optical lattices. The highly controllable experimental setting discussed in this work, has opened the door to new insights into static and dynamical properties of ultracold quantum matter. One of the highlights reported here is the development and application of a novel time-resolved spectroscopy technique for quantum many-body systems. By following the dynamical evolution of a many-body system after a quantum quench, the author shows how the important energy scales of the underlying Hamiltonian can be measured with high precision. This achievement, its application, and many other exciting results make this thesis of interest to a broad audience ranging from quantum optics to condensed matter physics. A lucid style of writing accompanied by a series of excellent figures make the work accessible to readers outside the rapidly growing research field of ultracold atoms.
Strongly Correlated Fermions and Bosons in Low-Dimensional Disordered Systems
Title | Strongly Correlated Fermions and Bosons in Low-Dimensional Disordered Systems PDF eBook |
Author | Igor V. Lerner |
Publisher | Springer Science & Business Media |
Pages | 405 |
Release | 2012-12-06 |
Genre | Science |
ISBN | 9401005303 |
The physics of strongly correlated fermions and bosons in a disordered envi ronment and confined geometries is at the focus of intense experimental and theoretical research efforts. Advances in material technology and in low temper ature techniques during the last few years led to the discoveries of new physical of atomic gases and a possible metal phenomena including Bose condensation insulator transition in two-dimensional high mobility electron structures. Situ ations were the electronic system is so dominated by interactions that the old concepts of a Fermi liquid do not necessarily make a good starting point are now routinely achieved. This is particularly true in the theory of low dimensional systems such as carbon nanotubes, or in two dimensional electron gases in high mobility devices where the electrons can form a variety of new structures. In many of these sys tems disorder is an unavoidable complication and lead to a host of rich physical phenomena. This has pushed the forefront of fundamental research in condensed matter towards the edge where the interplay between many-body correlations and quantum interference enhanced by disorder has become the key to the understand ing of novel phenomena.
Neural-Network Simulation of Strongly Correlated Quantum Systems
Title | Neural-Network Simulation of Strongly Correlated Quantum Systems PDF eBook |
Author | Stefanie Czischek |
Publisher | Springer Nature |
Pages | 205 |
Release | 2020-08-27 |
Genre | Science |
ISBN | 3030527158 |
Quantum systems with many degrees of freedom are inherently difficult to describe and simulate quantitatively. The space of possible states is, in general, exponentially large in the number of degrees of freedom such as the number of particles it contains. Standard digital high-performance computing is generally too weak to capture all the necessary details, such that alternative quantum simulation devices have been proposed as a solution. Artificial neural networks, with their high non-local connectivity between the neuron degrees of freedom, may soon gain importance in simulating static and dynamical behavior of quantum systems. Particularly promising candidates are neuromorphic realizations based on analog electronic circuits which are being developed to capture, e.g., the functioning of biologically relevant networks. In turn, such neuromorphic systems may be used to measure and control real quantum many-body systems online. This thesis lays an important foundation for the realization of quantum simulations by means of neuromorphic hardware, for using quantum physics as an input to classical neural nets and, in turn, for using network results to be fed back to quantum systems. The necessary foundations on both sides, quantum physics and artificial neural networks, are described, providing a valuable reference for researchers from these different communities who need to understand the foundations of both.
Hubbard Model, The: Recent Results
Title | Hubbard Model, The: Recent Results PDF eBook |
Author | Mario G Rasetti |
Publisher | World Scientific |
Pages | 242 |
Release | 1991-07-03 |
Genre | Science |
ISBN | 9814513962 |
This collection of articles provides authoritative and up-to-date reviews on the Hubbard Model. It will be useful to graduate students and researchers in the field.
Emergent Phenomena in Correlated Matter
Title | Emergent Phenomena in Correlated Matter PDF eBook |
Author | Eva Pavarini |
Publisher | Forschungszentrum Jülich |
Pages | 562 |
Release | 2013 |
Genre | |
ISBN | 3893368841 |
Effective Models for Low-Dimensional Strongly Correlated Systems
Title | Effective Models for Low-Dimensional Strongly Correlated Systems PDF eBook |
Author | Ghassan George Batrouni |
Publisher | Springer Science & Business Media |
Pages | 340 |
Release | 2006-02-23 |
Genre | Science |
ISBN | 9780735403093 |
These proceedings cover the most recent developments in the fields of high temperature superconductivity, magnetic materials and cold atoms in traps. Special emphasis is given to recently developed numerical and analytical methods, such as effective model Hamiltonians, density matrix renormalization group as well as quantum Monte Carlo simulations. Several of the contributions are written by the pioneers of these methods.
Quantum Simulations with Photons and Polaritons
Title | Quantum Simulations with Photons and Polaritons PDF eBook |
Author | Dimitris G. Angelakis |
Publisher | Springer |
Pages | 220 |
Release | 2017-05-03 |
Genre | Science |
ISBN | 3319520253 |
This book reviews progress towards quantum simulators based on photonic and hybrid light-matter systems, covering theoretical proposals and recent experimental work. Quantum simulators are specially designed quantum computers. Their main aim is to simulate and understand complex and inaccessible quantum many-body phenomena found or predicted in condensed matter physics, materials science and exotic quantum field theories. Applications will include the engineering of smart materials, robust optical or electronic circuits, deciphering quantum chemistry and even the design of drugs. Technological developments in the fields of interfacing light and matter, especially in many-body quantum optics, have motivated recent proposals for quantum simulators based on strongly correlated photons and polaritons generated in hybrid light-matter systems. The latter have complementary strengths to cold atom and ion based simulators and they can probe for example out of equilibrium phenomena in a natural driven-dissipative setting. This book covers some of the most important works in this area reviewing the proposal for Mott transitions and Luttinger liquid physics with light, to simulating interacting relativistic theories, topological insulators and gauge field physics. The stage of the field now is at a point where on top of the numerous theory proposals; experiments are also reported. Connecting to the theory proposals presented in the chapters, the main experimental quantum technology platforms developed from groups worldwide to realize photonic and polaritonic simulators in the laboratory are also discussed. These include coupled microwave resonator arrays in superconducting circuits, semiconductor based polariton systems, and integrated quantum photonic chips. This is the first book dedicated to photonic approaches to quantum simulation, reviewing the fundamentals for the researcher new to the field, and providing a complete reference for the graduate student starting or already undergoing PhD studies in this area.