Coupling Electrons, Phonons, and Photons for Nonequilibrium
... obtainable with the specularity model for phonon interaction with the boundaries. With real-space roughness, it is clear that a vast parameter space results in thermal conductivity below the Casimir limit, as seen in experiment. From Maurer et al. [5]. ...
... obtainable with the specularity model for phonon interaction with the boundaries. With real-space roughness, it is clear that a vast parameter space results in thermal conductivity below the Casimir limit, as seen in experiment. From Maurer et al. [5]. ...
On least action principles for discrete quantum scales
... • In this contribution, we develop a scale point of view based on the analysis of reality associated with observations at a given discrete scale. We develop in section 4 a paradigm (labeled with the letter “c” in table 1) based on the knowledge of real-valued discrete velocities. In other words, the ...
... • In this contribution, we develop a scale point of view based on the analysis of reality associated with observations at a given discrete scale. We develop in section 4 a paradigm (labeled with the letter “c” in table 1) based on the knowledge of real-valued discrete velocities. In other words, the ...
On Gauge Invariance and Covariant Derivatives in Metric Spaces
... differential equations for different fields, we have to introduce additional structures into the spacetime. These structures are known as connection coefficients. They can be introduced in a differential manifold independent of metric [2]. We can construct covariant derivatives in a manifold in term ...
... differential equations for different fields, we have to introduce additional structures into the spacetime. These structures are known as connection coefficients. They can be introduced in a differential manifold independent of metric [2]. We can construct covariant derivatives in a manifold in term ...
Equivalence of Topological Codes and Fast Decoding
... The fundamental motivation of our work is to rigorously classify the distinctions and equivalences between such codes. The natural notion of equivalence here is that coming from the condensed matter perspective, where one can introduce a phase equivalence for topologically ordered systems [9]. Simpl ...
... The fundamental motivation of our work is to rigorously classify the distinctions and equivalences between such codes. The natural notion of equivalence here is that coming from the condensed matter perspective, where one can introduce a phase equivalence for topologically ordered systems [9]. Simpl ...
Quantum Theory: a Pragmatist Approach
... physical condition. I shall elaborate a version of this view that assigns a two-fold role to the quantum state. It plays its primary role in the algorithm provided by the Born Rule for generating quantum probabilities. The quantum state’s secondary role cannot be so simply described, but here is the ...
... physical condition. I shall elaborate a version of this view that assigns a two-fold role to the quantum state. It plays its primary role in the algorithm provided by the Born Rule for generating quantum probabilities. The quantum state’s secondary role cannot be so simply described, but here is the ...
Our (represented) World: A Quantum
... must turn to double objecti cation as in Quantum Mechanics: the cognitive process is the primary object of learning. Second, it suggests that a representation of the world arises as the result of creative interplay between the mind and the environment. There is a degree of freedom that modi es the o ...
... must turn to double objecti cation as in Quantum Mechanics: the cognitive process is the primary object of learning. Second, it suggests that a representation of the world arises as the result of creative interplay between the mind and the environment. There is a degree of freedom that modi es the o ...
Phase-field model of self-polarization and cell movement
... In this talk, I will review recent results regarding the origin and dynamics of cardiac alternans. At the cellular level, this rhythm often appears due to a steep relationship between the APD and the time elapsed from the end of the previous action potential. In other situations, it has been observe ...
... In this talk, I will review recent results regarding the origin and dynamics of cardiac alternans. At the cellular level, this rhythm often appears due to a steep relationship between the APD and the time elapsed from the end of the previous action potential. In other situations, it has been observe ...
Understanding probabilistic interpretations of physical systems: A
... bob, the force on the bob during the motion, the velocity 共or position兲 versus time relation, etc. Such approaches encourage students to focus on the motion of the objects, which encourages a deterministic view of physical systems. Another way to analyze this system is to think about its probabilist ...
... bob, the force on the bob during the motion, the velocity 共or position兲 versus time relation, etc. Such approaches encourage students to focus on the motion of the objects, which encourages a deterministic view of physical systems. Another way to analyze this system is to think about its probabilist ...
Time-bin entangled qubits for quantum communication created by
... like quantum teleportation or entanglement swapping, and due to their ability to be transported in optical fibers, photons are the best candidates for long-distance applications 关1兴. Even though some of these protocols have already been experimentally realized 关2– 8兴, none of them was optimized for ...
... like quantum teleportation or entanglement swapping, and due to their ability to be transported in optical fibers, photons are the best candidates for long-distance applications 关1兴. Even though some of these protocols have already been experimentally realized 关2– 8兴, none of them was optimized for ...
Generalized Entropies
... gives an expression for the classical capacity of a classical[29] or a quantum[30] channel, as well as its “reverse” capacity[31]. Additional applications can be found particularly in quantum cryptography (see, e.g., [8, 32, 33]). Smooth entropies also have operational interpretations within thermod ...
... gives an expression for the classical capacity of a classical[29] or a quantum[30] channel, as well as its “reverse” capacity[31]. Additional applications can be found particularly in quantum cryptography (see, e.g., [8, 32, 33]). Smooth entropies also have operational interpretations within thermod ...
Information in statistical physics
... the positions and velocities of the molecules in a classical gas. On the other hand, microscopic systems are governed by quantum mechanics. There, physical quantities are mathematically represented as recalled in section 2 by elements of a non-commutative algebra. This feature implies, in particular ...
... the positions and velocities of the molecules in a classical gas. On the other hand, microscopic systems are governed by quantum mechanics. There, physical quantities are mathematically represented as recalled in section 2 by elements of a non-commutative algebra. This feature implies, in particular ...
ModPhys IV Lecture 3
... If we do QM in for a particle confined in a 1-D and 3-D potential well or rigid box. (See Course II Lecture 4) The solutions are characterized by a single quantum number (n) in the 1-D case and by three numbers (nx, ny and nz) in 3-D. These quantum numbers arise from the imposition of boundary condi ...
... If we do QM in for a particle confined in a 1-D and 3-D potential well or rigid box. (See Course II Lecture 4) The solutions are characterized by a single quantum number (n) in the 1-D case and by three numbers (nx, ny and nz) in 3-D. These quantum numbers arise from the imposition of boundary condi ...
PDF
... information in their long-lived degenerate D levels. These levels are not resonant with the laser driving the cycling transition, and so the loading of our quantum memory is nondestructively verified in this manner. We expect that the preceding memory-loading protocol can be run at rates as high as ...
... information in their long-lived degenerate D levels. These levels are not resonant with the laser driving the cycling transition, and so the loading of our quantum memory is nondestructively verified in this manner. We expect that the preceding memory-loading protocol can be run at rates as high as ...