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... these materials is crucial for improving their properties and developing applications, it is very difficult because of complexity in strongly interacting many-electron systems. Theoretical studies suggests simple model systems in order to explain the physics, but these systems cannot be verified dir ...
... these materials is crucial for improving their properties and developing applications, it is very difficult because of complexity in strongly interacting many-electron systems. Theoretical studies suggests simple model systems in order to explain the physics, but these systems cannot be verified dir ...
Spin Exchange Optical Pumping of Neon and its Applications
... Since the time of the first compass Man has been intrigued by the properties of magnetic fields. This fascination only increased with the birth of modern electronics. However the reach of magnetism extends well beyond that of electronics. The duality of the theory of magnetism and electricity proved ...
... Since the time of the first compass Man has been intrigued by the properties of magnetic fields. This fascination only increased with the birth of modern electronics. However the reach of magnetism extends well beyond that of electronics. The duality of the theory of magnetism and electricity proved ...
spin exchange optical pumping of neon and its applications
... Since the time of the first compass Man has been intrigued by the properties of magnetic fields. This fascination only increased with the birth of modern electronics. However the reach of magnetism extends well beyond that of electronics. The duality of the theory of magnetism and electricity proved ...
... Since the time of the first compass Man has been intrigued by the properties of magnetic fields. This fascination only increased with the birth of modern electronics. However the reach of magnetism extends well beyond that of electronics. The duality of the theory of magnetism and electricity proved ...
Resonances, dissipation and decoherence in exotic and artificial atoms
... be approached exactly in the same way. This raises the question how the electron confinement in the dot should be modelled. The most common choice is a two-dimensional (or, in case of spherical quantum dots, three-dimensional) harmonic oscillator potential, since the solutions for the one-particle p ...
... be approached exactly in the same way. This raises the question how the electron confinement in the dot should be modelled. The most common choice is a two-dimensional (or, in case of spherical quantum dots, three-dimensional) harmonic oscillator potential, since the solutions for the one-particle p ...
Ch 16) Electric Charge and Electric Field
... Only within the past century has it become clear that an understanding of electricity originates inside the atom itself. In later Chapters we will discuss atomic structure and the ideas that led to our present view of the atom in more detail. But it will help our understanding of electricity if we d ...
... Only within the past century has it become clear that an understanding of electricity originates inside the atom itself. In later Chapters we will discuss atomic structure and the ideas that led to our present view of the atom in more detail. But it will help our understanding of electricity if we d ...
Eigenmode decomposition of the near
... are successfully based on the integration of Maxwell’s equations. ...
... are successfully based on the integration of Maxwell’s equations. ...
Lecture, Week 1: September 27th - October 3rd, 1999 Outline 1
... description of gravity, which in the atomic realm is much weaker than the other forces. Another odd feature of quantum particle/waves is quantum entanglement. If two quantum partices are coupled but then go their separate ways, they remain somehow connected over space and time. Measurement of one wi ...
... description of gravity, which in the atomic realm is much weaker than the other forces. Another odd feature of quantum particle/waves is quantum entanglement. If two quantum partices are coupled but then go their separate ways, they remain somehow connected over space and time. Measurement of one wi ...
Spin and Charge Fluctuations in Strongly Correlated Systems
... becomes conducting, and has been proposed as a glue for the Cooper pairs in the superconducting state. Twenty years have passed since the discovery of the first high-TC superconductor. Since then a great amount of progress has been made in understand the physics of these strongly correlated material ...
... becomes conducting, and has been proposed as a glue for the Cooper pairs in the superconducting state. Twenty years have passed since the discovery of the first high-TC superconductor. Since then a great amount of progress has been made in understand the physics of these strongly correlated material ...
