ABSTRACT Title of dissertation: UNDERSTANDING ELECTRIC FIELD-ENHANCED TRANSPORT FOR THE MEASUREMENT OF
... (ssDNA) on the Au-NP surface was detected from a change in particle mobility, which could be modeled to extract the surface packing density. A gas-phase temperatureprogrammed desorption (TPD) kinetic study of SAMs on the Au-NP found the data to be consistent with a second order Arrhenius based rate ...
... (ssDNA) on the Au-NP surface was detected from a change in particle mobility, which could be modeled to extract the surface packing density. A gas-phase temperatureprogrammed desorption (TPD) kinetic study of SAMs on the Au-NP found the data to be consistent with a second order Arrhenius based rate ...
![arXiv:1312.4758v2 [quant-ph] 10 Apr 2014](http://s1.studyres.com/store/data/021352507_1-d587dd4045ccae4ae6a47bb17173f358-300x300.png)
arXiv:1312.4758v2 [quant-ph] 10 Apr 2014
... [6].) But some natural physical problems seem to have a complexity that is slightly above QM A. For example, one such problem is estimating the spectral gap of a Hamiltonian H. The spectral gap of H is the difference λ2 − λ1 between the energy λ1 of the ground state and the energy λ2 of the state wi ...
... [6].) But some natural physical problems seem to have a complexity that is slightly above QM A. For example, one such problem is estimating the spectral gap of a Hamiltonian H. The spectral gap of H is the difference λ2 − λ1 between the energy λ1 of the ground state and the energy λ2 of the state wi ...
Comparison of Theory and Experiment for a One
... where these rates are appropriate to the (amplitude) decay of the levels 6P3/2 , F ′ = 3′ , 4′ → 6S1/2 , F = 3, 4 with γ = 2π × 2.6 MHz (i.e., a radiative lifetime τ = 1/2γ = 30.6 ns). The cavity (field) decay rate κ is measured to be κ = 2π × 4.2 MHz. The rate of coherent coupling g43 for the e3 ↔ ...
... where these rates are appropriate to the (amplitude) decay of the levels 6P3/2 , F ′ = 3′ , 4′ → 6S1/2 , F = 3, 4 with γ = 2π × 2.6 MHz (i.e., a radiative lifetime τ = 1/2γ = 30.6 ns). The cavity (field) decay rate κ is measured to be κ = 2π × 4.2 MHz. The rate of coherent coupling g43 for the e3 ↔ ...
Quantum computation of scattering in scalar quantum field theories
... quantum field theory. The existence of the φ4 continuum theory has been rigorously established in two [47–51] and three [52, 53] (spacetime) dimensions. The perturbative expansion for the scattering matrix has been shown to be asymptotic in two [54, 55] and three [56] dimensions. Furthermore, in tho ...
... quantum field theory. The existence of the φ4 continuum theory has been rigorously established in two [47–51] and three [52, 53] (spacetime) dimensions. The perturbative expansion for the scattering matrix has been shown to be asymptotic in two [54, 55] and three [56] dimensions. Furthermore, in tho ...
momentum - Mrs. Brenner`s Biology
... Impulse-Momentum Theorem (Cont.) • Recall the equation FΔt = mΔv = mvf − mvi. Because mvf = pf and mvi = pi, you get: FΔt = mΔv = pf − pi • The right side of this equation, pf − pi, describes the change in momentum of an object. Thus, the impulse on an object is equal to the change in its momentum, ...
... Impulse-Momentum Theorem (Cont.) • Recall the equation FΔt = mΔv = mvf − mvi. Because mvf = pf and mvi = pi, you get: FΔt = mΔv = pf − pi • The right side of this equation, pf − pi, describes the change in momentum of an object. Thus, the impulse on an object is equal to the change in its momentum, ...
PDF
... having spin 2 belonging to HC . Finally, Bob receives spin 2, and his Hilbert space HB describes both spins 2 and 3. Notice that the form of the Hamiltonian in Eq. 共2兲, where no interaction terms are present, allows each of them to act, at a given time t, only on the spins that live in their own Hil ...
... having spin 2 belonging to HC . Finally, Bob receives spin 2, and his Hilbert space HB describes both spins 2 and 3. Notice that the form of the Hamiltonian in Eq. 共2兲, where no interaction terms are present, allows each of them to act, at a given time t, only on the spins that live in their own Hil ...
Detecting a many-body mobility edge with quantum
... the antiferromagnetic XXZ model in a random field [6, 7, 16, 17, 20], and the random-bond Ising model in a transverse field [19], among others. These models have the common feature that, when not protected from disorder by an energy gap, the ground state is localized for any arbitrary disorder stren ...
... the antiferromagnetic XXZ model in a random field [6, 7, 16, 17, 20], and the random-bond Ising model in a transverse field [19], among others. These models have the common feature that, when not protected from disorder by an energy gap, the ground state is localized for any arbitrary disorder stren ...
Full-Text PDF
... two chemical potentials µ L and µ R . Furthermore, we ignore the interaction between particles in the electrodes, although the central region C may contain such kind of interaction. We are interested in steady state regime, and, therefore, we take the initial state of the system to be in the far rem ...
... two chemical potentials µ L and µ R . Furthermore, we ignore the interaction between particles in the electrodes, although the central region C may contain such kind of interaction. We are interested in steady state regime, and, therefore, we take the initial state of the system to be in the far rem ...
P.Sci. Unit 5 Energy
... learned how to change energy from one form to another so that we can do work more easily and live more comfortably. In general, energy is defined as the ability to do work. Anything that has energy can apply a force on an object. If that object moves, then work was done. The more energy an object ha ...
... learned how to change energy from one form to another so that we can do work more easily and live more comfortably. In general, energy is defined as the ability to do work. Anything that has energy can apply a force on an object. If that object moves, then work was done. The more energy an object ha ...
The renormalization of the energy-momentum tensor for an effective initial... Hael Collins R. Holman *
... elegant explanation for the original fluctuations in the background, has a rather peculiar consequence if we continue to look yet further back in time. To fit all of the observed universe within a single causally connected region at some point during inflation typically requires that, subsequent to ...
... elegant explanation for the original fluctuations in the background, has a rather peculiar consequence if we continue to look yet further back in time. To fit all of the observed universe within a single causally connected region at some point during inflation typically requires that, subsequent to ...
Cooling and Trapping Neutral Atoms
... Precision measurements in atomic physics are usually done at low atomic densities to avoid collisional shifts and dephasing. This applies to both atomic clocks and atom interferometers. At high density, the atomic interaction energy results in so-called clock shifts and leads to phase diffusion in B ...
... Precision measurements in atomic physics are usually done at low atomic densities to avoid collisional shifts and dephasing. This applies to both atomic clocks and atom interferometers. At high density, the atomic interaction energy results in so-called clock shifts and leads to phase diffusion in B ...
Classical-quantum correspondence and the
... for the same system [1]. One can also attempt to rationalize the shapes of eigenstates in strongly coupled systems in terms of scarring [2] by classical periodic orbits [3]. In the work to be discussed here, we seek to establish quantitative connections between the quantum mechanical properties (lev ...
... for the same system [1]. One can also attempt to rationalize the shapes of eigenstates in strongly coupled systems in terms of scarring [2] by classical periodic orbits [3]. In the work to be discussed here, we seek to establish quantitative connections between the quantum mechanical properties (lev ...
Lecture 3b - web page for staff
... There is a general equation that describes this wave-like behavior and, with the appropriate potential energy and boundary conditions, will predict the results of experiments. The equation is called “Schrödinger equation” and it forms the foundations of quantum theory. In EM theory, a traveling EM w ...
... There is a general equation that describes this wave-like behavior and, with the appropriate potential energy and boundary conditions, will predict the results of experiments. The equation is called “Schrödinger equation” and it forms the foundations of quantum theory. In EM theory, a traveling EM w ...
