Hyperspherical Approach to Quantal Three-body Theory
... an increasingly large number of bound states (λ∗n is the value of λ that produces a = ∞ and n s-wave bound states). The Wν converge to a universal potential displaying the repulsive barrier at R ≈ 2rvdW that prevents particles access to short distances. (c)–(e) demonstrate the suppression of the wav ...
... an increasingly large number of bound states (λ∗n is the value of λ that produces a = ∞ and n s-wave bound states). The Wν converge to a universal potential displaying the repulsive barrier at R ≈ 2rvdW that prevents particles access to short distances. (c)–(e) demonstrate the suppression of the wav ...
PowerPoint 演示文稿 - at www.arxiv.org.
... 4) Relation between strange metal and superconductivity. Interestingly, in La2-xCexCuO4 with x from 0.11 to 0.17, there is a regime where the linear resistivity persists down to 20 mK once the superconductivity is suppressed. The Fermi liquid behavior is recovered in non-superconducting samples at ...
... 4) Relation between strange metal and superconductivity. Interestingly, in La2-xCexCuO4 with x from 0.11 to 0.17, there is a regime where the linear resistivity persists down to 20 mK once the superconductivity is suppressed. The Fermi liquid behavior is recovered in non-superconducting samples at ...
Springer Tracts in Modern Physics
... concepts of atomic, molecular, cluster, and condensed-matter physics. On the one hand mesoscopic systems represent an important class of electronic devices in the rapidly growing fields of micro- and nano-physics. Quantum interference effects in these small, low-dimensional electronic systems have l ...
... concepts of atomic, molecular, cluster, and condensed-matter physics. On the one hand mesoscopic systems represent an important class of electronic devices in the rapidly growing fields of micro- and nano-physics. Quantum interference effects in these small, low-dimensional electronic systems have l ...
Contents
... devoted their reasoning to the nature of motion, and the related conceptions of space and time, to the XXth century theories of gravitation, geometry has always been an essential aspect of this “epistemological bridge” between Nature and scientific knowledge. Although many of the physical and philos ...
... devoted their reasoning to the nature of motion, and the related conceptions of space and time, to the XXth century theories of gravitation, geometry has always been an essential aspect of this “epistemological bridge” between Nature and scientific knowledge. Although many of the physical and philos ...
QUANTUM COMPUTING
... for a new source of fundamental principles and basic laws. For example, concerning the particles, the questions of the movement of particles may be superseded by how particles can be utilized for information processing. Finally, let us observe some similarities between energy and information. Both o ...
... for a new source of fundamental principles and basic laws. For example, concerning the particles, the questions of the movement of particles may be superseded by how particles can be utilized for information processing. Finally, let us observe some similarities between energy and information. Both o ...
fundamentals of linear algebra
... Chapter 5 is an introduction to linear coding theory. The basic results about error correcting codes are proven, and we treat perfect codes in some detail. As well as being a timely subject, the topic of linear coding theory illustrates as well as anything I know of how powerful and useful the resul ...
... Chapter 5 is an introduction to linear coding theory. The basic results about error correcting codes are proven, and we treat perfect codes in some detail. As well as being a timely subject, the topic of linear coding theory illustrates as well as anything I know of how powerful and useful the resul ...
PARADIGM OF QUASI-LIE AND QUASI-HOM
... collaborators gave rise to a great interest in quantum groups and Hopf algebras. Since then several other versions of (q-) deformed Lie algebras have appeared, especially in physical contexts such as string theory. The main objects for these deformations were infinite-dimensional algebras, primarily ...
... collaborators gave rise to a great interest in quantum groups and Hopf algebras. Since then several other versions of (q-) deformed Lie algebras have appeared, especially in physical contexts such as string theory. The main objects for these deformations were infinite-dimensional algebras, primarily ...
Thèse de doctorat - IMJ-PRG
... extérieures, les algèbres symétriques et les parties négatives (ou positives) des groupes quantiques. Plus précisément, une algèbre de Nichols peut être construite à partir d’une algèbre tensorielle tressée T (V ), qui est une algèbre de Hopf tressée en remplaçant le flip par le tressage provenant d ...
... extérieures, les algèbres symétriques et les parties négatives (ou positives) des groupes quantiques. Plus précisément, une algèbre de Nichols peut être construite à partir d’une algèbre tensorielle tressée T (V ), qui est une algèbre de Hopf tressée en remplaçant le flip par le tressage provenant d ...
Graphene - âmost two-dimensionalâ system imaginable
... ‘Quantum electrodynamics (resulting from the merger of quantum mechanics and relativity theory) has provided a clear understanding of phenomena ranging from particle physics to cosmology and from astrophysics to quantum chemistry. The ideas underlying quantum electrodynamics also influence the theor ...
... ‘Quantum electrodynamics (resulting from the merger of quantum mechanics and relativity theory) has provided a clear understanding of phenomena ranging from particle physics to cosmology and from astrophysics to quantum chemistry. The ideas underlying quantum electrodynamics also influence the theor ...
Physics meets philosophy at the Planck scale: Contemporary
... the stage for the volume by briefly considering why one might want a quantum theory of gravity in the first place. Section 1.2 is more substantive, for it tackles the question of whether the gravitational field must be quantized. One often hears the idea that it is actually inconsistent with known p ...
... the stage for the volume by briefly considering why one might want a quantum theory of gravity in the first place. Section 1.2 is more substantive, for it tackles the question of whether the gravitational field must be quantized. One often hears the idea that it is actually inconsistent with known p ...
Statistical Mechanics: Entropy, Order Parameters and Complexity
... answer most questions that science can be expected to address. For example, consider the random walk (figure 1.1, chapter 2). (You might imagine it as the trajectory of a particle in a gas, or the configuration of a polymer in solution. While the motion of any given walk is irregular (left) and hard t ...
... answer most questions that science can be expected to address. For example, consider the random walk (figure 1.1, chapter 2). (You might imagine it as the trajectory of a particle in a gas, or the configuration of a polymer in solution. While the motion of any given walk is irregular (left) and hard t ...
10-DCs-trasnformation
... The (locally) diagonal Tensors (in their respective X”,Y”,Z” frames) of the various parts of Benzene are all to be transformed to a common Molecular axis system X,Y,Z. The transformation matrices are obtained with the corresponding direction cosines. Consider the C-C (σ) contribution of C-C (1-2); a ...
... The (locally) diagonal Tensors (in their respective X”,Y”,Z” frames) of the various parts of Benzene are all to be transformed to a common Molecular axis system X,Y,Z. The transformation matrices are obtained with the corresponding direction cosines. Consider the C-C (σ) contribution of C-C (1-2); a ...
On the Dynamics of Single-Electron Tunneling in Semiconductor
... on classical diffusive electron transport. Higher operation speed requires a further reduction of the device dimensions and a much smaller power dissipation. This will eventually lead to a break-down of the classical approach when the device dimension will be comparable to the Fermi wavelength and h ...
... on classical diffusive electron transport. Higher operation speed requires a further reduction of the device dimensions and a much smaller power dissipation. This will eventually lead to a break-down of the classical approach when the device dimension will be comparable to the Fermi wavelength and h ...