Nonabelions in the fractional quantum hall effect
... try to distinguish "particle-like" from "collective" excitations, the latter having Bose statistics and being typically related to fluctuations of conserved quantities such as charge and spin, thus being neutral and having spin zero or one. The other excitations have either non-trivial charge, spin ...
... try to distinguish "particle-like" from "collective" excitations, the latter having Bose statistics and being typically related to fluctuations of conserved quantities such as charge and spin, thus being neutral and having spin zero or one. The other excitations have either non-trivial charge, spin ...
3 Principles of Structure and Symmetry
... The equations (3.12), (3.13) and (3.16) now allow us to construct a 3-dimensional depiction of the wave functions for n = 1, 2 and 3. Let’s begin with the spherical s-orbitals. 1s has no radial zero points, 2s has one, and 3s has two. We will depict a cross-section of the orbitals (for example z = 0 ...
... The equations (3.12), (3.13) and (3.16) now allow us to construct a 3-dimensional depiction of the wave functions for n = 1, 2 and 3. Let’s begin with the spherical s-orbitals. 1s has no radial zero points, 2s has one, and 3s has two. We will depict a cross-section of the orbitals (for example z = 0 ...
quantum transport phenomena of two
... arsenide (AlGaAs) material system which provides a very high quality two-dimensional transport channel and has been widely used in artificial nanostructures [28]. These systems opened a new research area, namely, the physics of the electronic properties of twodimensional structures. In order to unde ...
... arsenide (AlGaAs) material system which provides a very high quality two-dimensional transport channel and has been widely used in artificial nanostructures [28]. These systems opened a new research area, namely, the physics of the electronic properties of twodimensional structures. In order to unde ...
Problems in nucleon structure study
... • Nucleon is an SU(3) color gauge system, atom is an U(1) em gauge system. To study the internal structure of atom and nucleon, the mass(energy)-momentum, spin, orbital angular momentum distribution among the constituents are fundamental problems. • Our experience on the atomic, molecular, nuclear i ...
... • Nucleon is an SU(3) color gauge system, atom is an U(1) em gauge system. To study the internal structure of atom and nucleon, the mass(energy)-momentum, spin, orbital angular momentum distribution among the constituents are fundamental problems. • Our experience on the atomic, molecular, nuclear i ...
L z
... The vector model This is a useful semi-classical model of the quantum results. Imagine L precesses around the z-axis. Hence the magnitude of L and the z-component Lz are constant while the x and y components can take a range of values and average to zero, just like the quantum eigenfunctions. A giv ...
... The vector model This is a useful semi-classical model of the quantum results. Imagine L precesses around the z-axis. Hence the magnitude of L and the z-component Lz are constant while the x and y components can take a range of values and average to zero, just like the quantum eigenfunctions. A giv ...
The Quantum Hall Effect: Novel Excitations and Broken Symmetries
... In the so-called integer quantum Hall effect (IQHE) discovered by von Klitzing in 1980, the quantum number ν is a simple integer with a precision of about 10−10 and an absolute accuracy of about 10−8 (both being limited by our ability to do resistance metrology). In 1982, Tsui, Störmer and Gossard ...
... In the so-called integer quantum Hall effect (IQHE) discovered by von Klitzing in 1980, the quantum number ν is a simple integer with a precision of about 10−10 and an absolute accuracy of about 10−8 (both being limited by our ability to do resistance metrology). In 1982, Tsui, Störmer and Gossard ...
Physics Overview
... This is the scale of the weak interaction, in modern language, the Higgs vacuum expectation value (~246 GeV). We expect to fine a Higgs boson and “New Physics” associated to the electroweak symmetry breaking. The answer to the question “what is the physics behind the electroweak symmetry breaking?” ...
... This is the scale of the weak interaction, in modern language, the Higgs vacuum expectation value (~246 GeV). We expect to fine a Higgs boson and “New Physics” associated to the electroweak symmetry breaking. The answer to the question “what is the physics behind the electroweak symmetry breaking?” ...
States and Operators in the Spacetime Algebra
... In Section 3 the Dirac algebra is studied using the full, relativistic STA. The STA form of the Dirac equation is derived and a table of Dirac spinor bilinear covariants in STA form is presented. In Section 4 a similar approach is presented for the Weyl representation, and it is shown how the 2-spin ...
... In Section 3 the Dirac algebra is studied using the full, relativistic STA. The STA form of the Dirac equation is derived and a table of Dirac spinor bilinear covariants in STA form is presented. In Section 4 a similar approach is presented for the Weyl representation, and it is shown how the 2-spin ...
