Add to ORKGQuantum mechanics, which is quite successful in describing the physics in the micro-scopic scale such as electrons in an atom, tells us that particles interfere with each other due to their inherent wave nature. However, such phenomena are rarely ob-served in a macroscopic system, which has made the basic concepts of the quantu
We introduce a model that explains the phenomenon of correlation-assisted tunneling and puts it in a...
A quantum-mechanical measurement process is analyzed in terms of a model Hamiltonian describing the ...
Two decades after the discovery of the quantum Hall eect [1], quantum coherent electronic transport ...
We review canonical experiments on systems that have pushed the boundary between the quantum and cla...
The dependence of macroscoprc systems upor-r their environmertt is studied under the assumption that...
Electronic quantum phase coherence results in interferences in mesoscopic metal circuits. The first ...
Coherence is a familiar concept in physics. It is the driving force behind wavelike phenomena such a...
The study of physics at the atomic scale led to the development of quantum mechanics in the early tw...
One of the fundamental features that separates quantum physics from classical physics is the idea of...
The apparent symmetry between energy and momentum found in all covariant descriptions of neutrino os...
We analyse a proposal that we have recently put forward for an interface between matter-wave and opt...
The quantization of resistances in the quantum Hall effect and ballistic transport through quantum p...
Coherence, entanglement, and interference arise from quantum superposition, the most distinctive and...
This comprehensive text describes the phenomenon of atomic coherence and the applications in several...
7 pags., 2 figs.We propose to use quantum coherence as the ultimate proof of the quantum nature of t...
We introduce a model that explains the phenomenon of correlation-assisted tunneling and puts it in a...
A quantum-mechanical measurement process is analyzed in terms of a model Hamiltonian describing the ...
Two decades after the discovery of the quantum Hall eect [1], quantum coherent electronic transport ...
We review canonical experiments on systems that have pushed the boundary between the quantum and cla...
The dependence of macroscoprc systems upor-r their environmertt is studied under the assumption that...
Electronic quantum phase coherence results in interferences in mesoscopic metal circuits. The first ...
Coherence is a familiar concept in physics. It is the driving force behind wavelike phenomena such a...
The study of physics at the atomic scale led to the development of quantum mechanics in the early tw...
One of the fundamental features that separates quantum physics from classical physics is the idea of...
The apparent symmetry between energy and momentum found in all covariant descriptions of neutrino os...
We analyse a proposal that we have recently put forward for an interface between matter-wave and opt...
The quantization of resistances in the quantum Hall effect and ballistic transport through quantum p...
Coherence, entanglement, and interference arise from quantum superposition, the most distinctive and...
This comprehensive text describes the phenomenon of atomic coherence and the applications in several...
7 pags., 2 figs.We propose to use quantum coherence as the ultimate proof of the quantum nature of t...
We introduce a model that explains the phenomenon of correlation-assisted tunneling and puts it in a...
A quantum-mechanical measurement process is analyzed in terms of a model Hamiltonian describing the ...
Two decades after the discovery of the quantum Hall eect [1], quantum coherent electronic transport ...