What is matter? The fundamental ontology of atomism and structural
... among the particles that tell us something about their motion, then what remains as basic characteristic of the atoms is their position in space, given that motion is change in the spatial arrangement of the particles. In fact, Democritus and Newton conceive the atoms as being inserted into an absol ...
... among the particles that tell us something about their motion, then what remains as basic characteristic of the atoms is their position in space, given that motion is change in the spatial arrangement of the particles. In fact, Democritus and Newton conceive the atoms as being inserted into an absol ...
Quantum gases in optical lattices
... oscillation frequencies of the two modes able to convert a superfluid Bose–Ein- form a massive parallel quantum-gate array. to have a distinct ratio, which was instein condensate to a Mott insulator and Consider a string of atoms on different lattice deed observed in the experiment (see First the at ...
... oscillation frequencies of the two modes able to convert a superfluid Bose–Ein- form a massive parallel quantum-gate array. to have a distinct ratio, which was instein condensate to a Mott insulator and Consider a string of atoms on different lattice deed observed in the experiment (see First the at ...
Chapter 6
... At this time the inherent structure of the matter was very indistinct and unclear. Niels Bohr- using results from Rutherford, Balmer among others - was the man who by his very simple atomic model in a theoretical way for the first time succeeded to describe the emission spectrum from the most simple ...
... At this time the inherent structure of the matter was very indistinct and unclear. Niels Bohr- using results from Rutherford, Balmer among others - was the man who by his very simple atomic model in a theoretical way for the first time succeeded to describe the emission spectrum from the most simple ...
Chapter 6
... At this time the inherent structure of the matter was very indistinct and unclear. Niels Bohr- using results from Rutherford, Balmer among others - was the man who by his very simple atomic model in a theoretical way for the first time succeeded to describe the emission spectrum from the most simple ...
... At this time the inherent structure of the matter was very indistinct and unclear. Niels Bohr- using results from Rutherford, Balmer among others - was the man who by his very simple atomic model in a theoretical way for the first time succeeded to describe the emission spectrum from the most simple ...
Chapter 21 Rigid Body Dynamics: Rotation and Translation
... translational and rotational motion about a fixed direction. Because the body is translating, the axis of rotation is no longer fixed in space. We shall describe the motion by a translation of the center of mass and a rotation about the center of mass. By choosing a reference frame moving with the c ...
... translational and rotational motion about a fixed direction. Because the body is translating, the axis of rotation is no longer fixed in space. We shall describe the motion by a translation of the center of mass and a rotation about the center of mass. By choosing a reference frame moving with the c ...
Simulating Charge Stability Diagrams for Double and Triple
... must be able to be performed, (5) and long coherence times must exist for the qubits in the system1 –where coherence time describes how long a quantum state can exist on average before being perturbed, and, in turn, altered by the environment. Many different types of systems show promise in fulfilli ...
... must be able to be performed, (5) and long coherence times must exist for the qubits in the system1 –where coherence time describes how long a quantum state can exist on average before being perturbed, and, in turn, altered by the environment. Many different types of systems show promise in fulfilli ...
CDM article on quantum chaos - Department of Mathematics
... expository articles that already exist on the QUE and entropy problems, particularly [AN2, ANK, CV3, LIND2, Sar3] (and for earlier work [Z1, Z2, M, Sar]). To a large degree we closely follow the original sources, emphasizing intuition over the finer technical details. Although we go over much of the ...
... expository articles that already exist on the QUE and entropy problems, particularly [AN2, ANK, CV3, LIND2, Sar3] (and for earlier work [Z1, Z2, M, Sar]). To a large degree we closely follow the original sources, emphasizing intuition over the finer technical details. Although we go over much of the ...
Equilibration and Order in Quantum Floquet Matter
... energy; in particular in periodically driven systems, energy is conserved only modulo 2π/T . For generic systems lacking any other local conserved quantities, thermodynamics predicts an entropy maximizing state at late times that is just the infinite temperature state18–20 , with all local operator ...
... energy; in particular in periodically driven systems, energy is conserved only modulo 2π/T . For generic systems lacking any other local conserved quantities, thermodynamics predicts an entropy maximizing state at late times that is just the infinite temperature state18–20 , with all local operator ...
Polarized interacting exciton gas in quantum wells and bulk semiconductors
... built upon. In any case, spin splitting is beyond the scope of those spinless excitons theories. We present in this paper a theory of spin-dependent exciton-exciton interaction in two and three dimensions ~2D and 3D!. Such interaction produces a gas with a difference in the spin populations, a level ...
... built upon. In any case, spin splitting is beyond the scope of those spinless excitons theories. We present in this paper a theory of spin-dependent exciton-exciton interaction in two and three dimensions ~2D and 3D!. Such interaction produces a gas with a difference in the spin populations, a level ...
silicon in the quantum limit: quantum computing
... information processing (QIP) applications due to their large industrial base and perceived scalability potential. Electron spins in silicon in particular may be an excellent architecture for QIP and also for spin electronics (spintronics) applications. While the charge of an electron is easily manip ...
... information processing (QIP) applications due to their large industrial base and perceived scalability potential. Electron spins in silicon in particular may be an excellent architecture for QIP and also for spin electronics (spintronics) applications. While the charge of an electron is easily manip ...
