
Physics - Poincare
... world. The distinction, however, is not always clear-cut. There is a large area of research intermediate between physics and mathematics, known as mathematical physics. Physics is also intimately related to many other sciences, as well as applied fields like engineering and medicine. The principles ...
... world. The distinction, however, is not always clear-cut. There is a large area of research intermediate between physics and mathematics, known as mathematical physics. Physics is also intimately related to many other sciences, as well as applied fields like engineering and medicine. The principles ...
Engineering a Robust Quantum Spin Hall State in Graphene via
... by the H-site adatom, none of the conventional brokensymmetry gapped phases of graphene—such as chargedensity wave or ‘‘Kekule’’ orders—is obviously favored here, so it is reasonable to expect these additional terms to play a relatively minor role. We explicitly confirm this intuition in the multiad ...
... by the H-site adatom, none of the conventional brokensymmetry gapped phases of graphene—such as chargedensity wave or ‘‘Kekule’’ orders—is obviously favored here, so it is reasonable to expect these additional terms to play a relatively minor role. We explicitly confirm this intuition in the multiad ...
the problem book
... (You need not solve this equation.) The radius of Earth is RE = 6.4×106 m; the gravitational acceleration at the surface is 9.81 m/s2 . ...
... (You need not solve this equation.) The radius of Earth is RE = 6.4×106 m; the gravitational acceleration at the surface is 9.81 m/s2 . ...
Manifestations of Berry`s phase in molecules and condensed matter
... fields and phenomena where the Berry’s phase plays a relevant role; therefore further selectivity is in order. The most notable omissions here concern the quantum Hall effect [18], and the physics of superfluids in general. In these areas, which are not covered by the present review, a large amount of ...
... fields and phenomena where the Berry’s phase plays a relevant role; therefore further selectivity is in order. The most notable omissions here concern the quantum Hall effect [18], and the physics of superfluids in general. In these areas, which are not covered by the present review, a large amount of ...
Quantum Knots and Lattices, or a Blueprint for Quantum Systems
... Abstract. Within the framework of the cubic honeycomb (cubic tessellation) of Euclidean 3-space, we define a quantum system whose states, called quantum knots, represent a closed knotted piece of rope, i.e., represent the particular spatial configuration of a knot tied in a rope in 3-space. This qua ...
... Abstract. Within the framework of the cubic honeycomb (cubic tessellation) of Euclidean 3-space, we define a quantum system whose states, called quantum knots, represent a closed knotted piece of rope, i.e., represent the particular spatial configuration of a knot tied in a rope in 3-space. This qua ...
Document
... spin squeezing in symmetric multiqubit states The parameters of a collective phenomena like spin-squeezing, reflecting pairwise entanglement of symmetric qubits, should be expressible in terms of two qubit local invariants. In fact, the local invariant version of Kitagawa-Ueda spin squeezing paramet ...
... spin squeezing in symmetric multiqubit states The parameters of a collective phenomena like spin-squeezing, reflecting pairwise entanglement of symmetric qubits, should be expressible in terms of two qubit local invariants. In fact, the local invariant version of Kitagawa-Ueda spin squeezing paramet ...
Springer Tracts in Modern Physics
... quantum size effects are inherent in the orbital magnetism of mesoscopic systems, since there exists no classical counterpart. The geometrical effects on orbital magnetism are reviewed in detail on the level of both individual samples and ensembles. Furthermore, weak-disorder effects in quantum dots ...
... quantum size effects are inherent in the orbital magnetism of mesoscopic systems, since there exists no classical counterpart. The geometrical effects on orbital magnetism are reviewed in detail on the level of both individual samples and ensembles. Furthermore, weak-disorder effects in quantum dots ...
the final version of Abstract Book
... Recent progress in technologies has led to enormous improvements of measurement and observation techniques, both at microscopic as well as macroscopic scales, which allow us to measure many characteristics and observe many features of various systems. These include not only very small artificial str ...
... Recent progress in technologies has led to enormous improvements of measurement and observation techniques, both at microscopic as well as macroscopic scales, which allow us to measure many characteristics and observe many features of various systems. These include not only very small artificial str ...
"Fundamentals of Electronic Spectroscopy" in
... polyatomic molecules) if they have the same total electronspin quantum number S as the ground electronic state, or by the letters a, b, c, . . . (ã, b̃, c̃, . . . for polyatomic molecules) if they have a different spin multiplicity. The “ ˜ ” in the designation of electronic states of polyatomic mo ...
... polyatomic molecules) if they have the same total electronspin quantum number S as the ground electronic state, or by the letters a, b, c, . . . (ã, b̃, c̃, . . . for polyatomic molecules) if they have a different spin multiplicity. The “ ˜ ” in the designation of electronic states of polyatomic mo ...
QUANTUM MECHANICS B PHY-413 Note Set No. 7
... by inspecting Figure 2. Any vector may be written as an expansion in terms of these so–called basis vectors: V ...
... by inspecting Figure 2. Any vector may be written as an expansion in terms of these so–called basis vectors: V ...
Neutrino Oscillations and Beyond Standard Model Physics
... Search for CP violation in future experiments measure difference in oscillations of νµ → νe and ν̄µ → ν̄e is hard ...
... Search for CP violation in future experiments measure difference in oscillations of νµ → νe and ν̄µ → ν̄e is hard ...
Observation of topological links associated with Hopf
... The interplay of topology and symmetry plays a key role in the classification of quantum phases of matter [1–5]. It gives rise to a notable periodic table for topological insulators and superconductors for free fermions [3, 4]. The recently discovered Z2 topological insulators [6–8] fit into this cl ...
... The interplay of topology and symmetry plays a key role in the classification of quantum phases of matter [1–5]. It gives rise to a notable periodic table for topological insulators and superconductors for free fermions [3, 4]. The recently discovered Z2 topological insulators [6–8] fit into this cl ...
Preparing topologically ordered states by Hamiltonian
... makes it a natural candidate for achieving the task of topological code state preparation. An additional attractive feature is that its experimental requirements are rather modest: while some time-dependent control is required, this can be local, and additionally translation-invariant. Namely, the n ...
... makes it a natural candidate for achieving the task of topological code state preparation. An additional attractive feature is that its experimental requirements are rather modest: while some time-dependent control is required, this can be local, and additionally translation-invariant. Namely, the n ...
Czech Technical University in Prague Faculty of Electrical
... quantum physics. Quantum computing can be seen as a special intermediate case between digital and real analog computing. Importantly, there is a threshold theorem for error correction, as opposed to the pure analog case. Alternatively, quantum computing can be viewed as generalized probabilistic com ...
... quantum physics. Quantum computing can be seen as a special intermediate case between digital and real analog computing. Importantly, there is a threshold theorem for error correction, as opposed to the pure analog case. Alternatively, quantum computing can be viewed as generalized probabilistic com ...