Novel Results for Condensed Matter Systems with Time Reversal Symmetry
... regime of Coulomb Blockade [10]. The fact that superconductivity is associated with breaking of particle number conservation hints at the idea that in mesoscopic systems superconductivity can quite different from that of bulk systems. In this work we focus on extreme case of the so-called zerodimens ...
... regime of Coulomb Blockade [10]. The fact that superconductivity is associated with breaking of particle number conservation hints at the idea that in mesoscopic systems superconductivity can quite different from that of bulk systems. In this work we focus on extreme case of the so-called zerodimens ...
Free Energies of Cavity and Noncavity Hydrated Electrons at the
... The Journal of Physical Chemistry Letters It is important to note that the PMF for the TB electron relative to the instantaneous air/water interface looks quite different from that in our previous work where the GDS was used to characterize the interface (compare Figure 1 this Letter and Figure 4a in ...
... The Journal of Physical Chemistry Letters It is important to note that the PMF for the TB electron relative to the instantaneous air/water interface looks quite different from that in our previous work where the GDS was used to characterize the interface (compare Figure 1 this Letter and Figure 4a in ...
CP PHysics Ch 21 ppt - Lincoln High School
... Tip: Note that the energies for each energy level are negative. The reason is that the energy of an electron in an atom is defined with respect to the amount of work required to remove the electron from the atom. In some energy-level diagrams, the energy of E1 is defined as zero, and the higher ener ...
... Tip: Note that the energies for each energy level are negative. The reason is that the energy of an electron in an atom is defined with respect to the amount of work required to remove the electron from the atom. In some energy-level diagrams, the energy of E1 is defined as zero, and the higher ener ...
Introduction to the thermodynamic Bethe ansatz
... Heisenberg spin chain [6, 7, 8] and Hubbard model [9, 10].1 The TBA can be used to compute the free energy of integrable field theories as well, which upon doing a double Wick rotation has an alternative use in finding their exact ground state energies in finite volume [12]. By a form of analytic co ...
... Heisenberg spin chain [6, 7, 8] and Hubbard model [9, 10].1 The TBA can be used to compute the free energy of integrable field theories as well, which upon doing a double Wick rotation has an alternative use in finding their exact ground state energies in finite volume [12]. By a form of analytic co ...
Exact solution of a massless scalar field with a relevant
... Even with this crucial simplification, it is still not immediately obvious what it means to scatter two particles traveling in the same direction at the speed of light. There are several ways to define a bulk S matrix in the integrable models we are studying. One is as the phase which results when c ...
... Even with this crucial simplification, it is still not immediately obvious what it means to scatter two particles traveling in the same direction at the speed of light. There are several ways to define a bulk S matrix in the integrable models we are studying. One is as the phase which results when c ...
Path Integrals — Elementary Properties and Simple Solutions
... 2.1 Path Integral Representation of Time Evolution Amplitudes ...
... 2.1 Path Integral Representation of Time Evolution Amplitudes ...
Large-N Limit as a Classical Limit: Baryon Two-dimensional QCD and Multi-Matrix Models
... Spectacular experimental discoveries, such as patterns found in the hadronic spectrum [40, 83], electroweak gauge bosons [89], and scaling in deep inelastic scattering [38], parallel the discovery of the detailed orbits of planets and moons, or of discrete atomic spectra. On the other hand, equally ...
... Spectacular experimental discoveries, such as patterns found in the hadronic spectrum [40, 83], electroweak gauge bosons [89], and scaling in deep inelastic scattering [38], parallel the discovery of the detailed orbits of planets and moons, or of discrete atomic spectra. On the other hand, equally ...
Extracting resonance parameters from experimental data on scattering of charged particles. Paul Vaandrager
... A method of extracting resonance parameters from scattering data is outlined for scattering that involves Coulomb interactions. This is done for single-channel scattering, as well as multi-channel scattering. Within the outlined model, a set of experimental data points are fitted using a multi-chann ...
... A method of extracting resonance parameters from scattering data is outlined for scattering that involves Coulomb interactions. This is done for single-channel scattering, as well as multi-channel scattering. Within the outlined model, a set of experimental data points are fitted using a multi-chann ...
Ultrafast Spectroscopy of Atomic and Molecular Quantum Dynamics Pia Johansson
... where the ck coefficients describe the excitation of the molecule from the initial state and can be determined by first order perturbation theory, and the sum ranges over k such that all stationary states excited by the ultrashort pulse are included [2]. This superposition of stationary eigenstates ...
... where the ck coefficients describe the excitation of the molecule from the initial state and can be determined by first order perturbation theory, and the sum ranges over k such that all stationary states excited by the ultrashort pulse are included [2]. This superposition of stationary eigenstates ...
80, 032307 (2009)
... However, a quantum system cannot be completely isolated from the environment, leading to unavoidable decoherence for quantum states. Therefore a critical question is how to suppress the decoherence to a desired level for various applications. In this paper, we consider the suppression of the phase d ...
... However, a quantum system cannot be completely isolated from the environment, leading to unavoidable decoherence for quantum states. Therefore a critical question is how to suppress the decoherence to a desired level for various applications. In this paper, we consider the suppression of the phase d ...
Ady Stern
... 1. A proposed interference experiment to address the non-abelian nature of the quasi-particles, insensitive to localized quasi-particles. 2. A proposed “thermodynamic” experiment to address the non-abelian nature of the quasi-particles, insensitive to localized ...
... 1. A proposed interference experiment to address the non-abelian nature of the quasi-particles, insensitive to localized quasi-particles. 2. A proposed “thermodynamic” experiment to address the non-abelian nature of the quasi-particles, insensitive to localized ...
Effect of high-n and continuum eigenstates on the - Plasma-Gate
... The quadratic-effect constants g for the levels and for the transitions are given in Tables II and III, respectively. In both tables, the left columns give the total values of g and the right columns give the values due to the high-n discrete levels and the continuum levels. One can see that the con ...
... The quadratic-effect constants g for the levels and for the transitions are given in Tables II and III, respectively. In both tables, the left columns give the total values of g and the right columns give the values due to the high-n discrete levels and the continuum levels. One can see that the con ...
Block Weighing Matrices
... Remark 4 By definition, an n × n Latin Square is constructed from a set of n different symbols. As Proposition 5 will show, so far as the nonzero elements of {P0 , P1 , ..., 0, ..., 0} occur no more than once in any row or column, we will have a BWM. In keeping with the notion for Latin Squares, th ...
... Remark 4 By definition, an n × n Latin Square is constructed from a set of n different symbols. As Proposition 5 will show, so far as the nonzero elements of {P0 , P1 , ..., 0, ..., 0} occur no more than once in any row or column, we will have a BWM. In keeping with the notion for Latin Squares, th ...
Recurrence spectroscopy of atoms in electric fields: Failure of classical
... quantum numbers n, while larger F implies lower. We show an example recurrence spectrum where the primitive semiclassical approximation that gives good agreement with quantum calculations and experiment in the small-\ˆ , high-n regime must be replaced by a uniform semiclassical approximation as the ...
... quantum numbers n, while larger F implies lower. We show an example recurrence spectrum where the primitive semiclassical approximation that gives good agreement with quantum calculations and experiment in the small-\ˆ , high-n regime must be replaced by a uniform semiclassical approximation as the ...