Add to ORKGProgress in experimental techniques at nanoscale makes measurements of noise in molecular junctions possible. These data are important source of information not accessible through average flux measurements. The emergence of optoelectronics, the recently shown possibility of strong light-matter couplings, and developments in the field of quantum thermodynamics are making measurements of transport statistics even more important. Theoretical methods for noise evaluation in first principles simulations can be roughly divided into approaches for weak intra-system interactions, and those treating strong interactions for systems weakly coupled to baths. We argue that due to structure of its diagrammatic expansion, and the use of many-body states a...
Atomic-scale junctions are a powerful tool to study quantum transport, and are frequently examined t...
This thesis is devoted to developing of an universal description of strongly interacting mesoscopic ...
We show how sign problems in simulations of many-body systems can manifest themselves in the form of...
We introduce the notion, and develop the theory of local-noise spectroscopy (LNS) - a tool to study ...
Mesoscopic physics considers systems of appropriate size and at time scales of the order of decohere...
Accepted for publication in Journal of Statistical PhysicsInternational audienceRecently, Dammak and...
We present an ab-initio method to simulate the current noise in the presence of electron-vibration i...
Nature is inherently noisy and nonlinear. It is noisy in the sense that all macroscopic systems are ...
We investigate the effects of phonon scattering on the electronic current noise through nanojunction...
Noise-induced fluctuations in non-linear systems are studied theoretically and experimentally for fi...
We describe an implementation of ab-initio methodology to compute inelastic shot noise signals due t...
© 2015 American Chemical Society. The semiclassical method of quantum thermal baths by colored noise...
We consider the simulation of interacting high-dimensional systems using pairwise interacting qubits...
We introduce diagrammatic technique for Hubbard nonequilibrium Green functions (NEGF). The formulati...
We present a brief pedagogical review of theoretical Green's function methods applicable to open qua...
Atomic-scale junctions are a powerful tool to study quantum transport, and are frequently examined t...
This thesis is devoted to developing of an universal description of strongly interacting mesoscopic ...
We show how sign problems in simulations of many-body systems can manifest themselves in the form of...
We introduce the notion, and develop the theory of local-noise spectroscopy (LNS) - a tool to study ...
Mesoscopic physics considers systems of appropriate size and at time scales of the order of decohere...
Accepted for publication in Journal of Statistical PhysicsInternational audienceRecently, Dammak and...
We present an ab-initio method to simulate the current noise in the presence of electron-vibration i...
Nature is inherently noisy and nonlinear. It is noisy in the sense that all macroscopic systems are ...
We investigate the effects of phonon scattering on the electronic current noise through nanojunction...
Noise-induced fluctuations in non-linear systems are studied theoretically and experimentally for fi...
We describe an implementation of ab-initio methodology to compute inelastic shot noise signals due t...
© 2015 American Chemical Society. The semiclassical method of quantum thermal baths by colored noise...
We consider the simulation of interacting high-dimensional systems using pairwise interacting qubits...
We introduce diagrammatic technique for Hubbard nonequilibrium Green functions (NEGF). The formulati...
We present a brief pedagogical review of theoretical Green's function methods applicable to open qua...
Atomic-scale junctions are a powerful tool to study quantum transport, and are frequently examined t...
This thesis is devoted to developing of an universal description of strongly interacting mesoscopic ...
We show how sign problems in simulations of many-body systems can manifest themselves in the form of...