Superconducting Qubit Storage and Entanglement with Nanomechanical Resonators A. N. Cleland
... apart from expected phase factors. The JJ state has actually been swapped with that of the resonator. The cavity-QED analog of this operation has been demonstrated in Ref. [15]. To assess the limitations of the RWA and examine the feasibility of future experiments, we also solve Eq. (2) numerically, ...
... apart from expected phase factors. The JJ state has actually been swapped with that of the resonator. The cavity-QED analog of this operation has been demonstrated in Ref. [15]. To assess the limitations of the RWA and examine the feasibility of future experiments, we also solve Eq. (2) numerically, ...
Recurrence spectroscopy of atoms in electric fields: Failure of classical
... these oscillations to classical orbits of the electron that begin and end near the nucleus @4,5#. The wavelengths of the oscillations on the energy axis are related to the closure times T of the classical orbits by l E 5h/T and the amplitude of each oscillation is inversely proportional to the diver ...
... these oscillations to classical orbits of the electron that begin and end near the nucleus @4,5#. The wavelengths of the oscillations on the energy axis are related to the closure times T of the classical orbits by l E 5h/T and the amplitude of each oscillation is inversely proportional to the diver ...
Quantum Coherence in Biological Systems
... In this PhD thesis I investigate the occurrence of quantum coherences and their consequences in biological systems. I consider both finite (spin) and infinite (vibrations) degrees of freedom. Chapter 1 gives a general introduction to quantum biology. I summarize key features of quantum effects and p ...
... In this PhD thesis I investigate the occurrence of quantum coherences and their consequences in biological systems. I consider both finite (spin) and infinite (vibrations) degrees of freedom. Chapter 1 gives a general introduction to quantum biology. I summarize key features of quantum effects and p ...
Quantum State Engineering and Information Processing with
... By coupling the ion’s motional and electronic degrees of freeedom, we can engineer entanglement between these systems. This allows us to study quantum mechanics, with all its pecularities, in a well-controlled environment. For example, we can study the interactions of superposition states with the i ...
... By coupling the ion’s motional and electronic degrees of freeedom, we can engineer entanglement between these systems. This allows us to study quantum mechanics, with all its pecularities, in a well-controlled environment. For example, we can study the interactions of superposition states with the i ...
Chapter 6 Jeopardy
... States that orbitals of equal energy are each occupied by one electron before any orbital is occupied by a second electron, and all e- in singly occupied orbitals must have the ...
... States that orbitals of equal energy are each occupied by one electron before any orbital is occupied by a second electron, and all e- in singly occupied orbitals must have the ...
Three-Level L-Type Atomic System Localized by the Parameters of
... x and y within the optical wavelength. The intensities of SGC are Figure 2 (a) p = 0.87, (b) p = 0.81, (c) p = 0.71, (d) p = 0.50. Two spike-like localization peaks sit in the second and fourth quadrants of the x-y plane, and their same amplitudes are about 0.02 in Figure 2(a) when p = 0.92. The amp ...
... x and y within the optical wavelength. The intensities of SGC are Figure 2 (a) p = 0.87, (b) p = 0.81, (c) p = 0.71, (d) p = 0.50. Two spike-like localization peaks sit in the second and fourth quadrants of the x-y plane, and their same amplitudes are about 0.02 in Figure 2(a) when p = 0.92. The amp ...
“Magnus” force - Pacific Institute of Theoretical Physics
... We begin with the phase term – then we can derive equations of motion for the 2 coupled paths, which are best written in the variables Then, in addition to the Magnus force, we find another force acting on the vortex, given by ...
... We begin with the phase term – then we can derive equations of motion for the 2 coupled paths, which are best written in the variables Then, in addition to the Magnus force, we find another force acting on the vortex, given by ...
Polaronic exciton in a parabolic quantum dot
... These structures, where quantum mechanical effects are strongly manifested, have become the subject of intensive experimental and theoretical investigations during the past decade [1]. The inherent fundamental physics and the potential use in designing more efficient microelectronic devices are amon ...
... These structures, where quantum mechanical effects are strongly manifested, have become the subject of intensive experimental and theoretical investigations during the past decade [1]. The inherent fundamental physics and the potential use in designing more efficient microelectronic devices are amon ...
Lecture Notes
... How do we even start thinking about majoranas? start simple. Start wth a single bound state, say at a deltafunction potential. The hamiltonian is: H=− ...
... How do we even start thinking about majoranas? start simple. Start wth a single bound state, say at a deltafunction potential. The hamiltonian is: H=− ...
QBism, the Perimeter of Quantum Bayesianism
... technical sense of the word—the sense provided by probability theory and Shannon’s information theory. There is no more beautiful demonstration of this than Robert Spekkens’s “toy model” for mimicking various features of quantum mechanics [12]. In that model, the “toys” are each equipped with four p ...
... technical sense of the word—the sense provided by probability theory and Shannon’s information theory. There is no more beautiful demonstration of this than Robert Spekkens’s “toy model” for mimicking various features of quantum mechanics [12]. In that model, the “toys” are each equipped with four p ...
Fluctuations of the Electromagnetic Vacuum Field or radiation
... Lamb shift is usually interpreted as arising from fluctuations in the position of the electron within the atomic potential. These fluctuations themselves are attributed to interactions between the electron and the electromagnetic field vacuum fluctuations.16 But they can also be thought to arise ins ...
... Lamb shift is usually interpreted as arising from fluctuations in the position of the electron within the atomic potential. These fluctuations themselves are attributed to interactions between the electron and the electromagnetic field vacuum fluctuations.16 But they can also be thought to arise ins ...
Phase Diagram of the Bose-Hubbard Model with T_3 symmetry
... in the absence of any frustration the superfluid phase is characterized by modulation of the order parameter on the different sublattices of the T3 structure. The zero-temperature critical point as a function of a magnetic field shows the characteristic “butterfly” form. At fully frustration the sup ...
... in the absence of any frustration the superfluid phase is characterized by modulation of the order parameter on the different sublattices of the T3 structure. The zero-temperature critical point as a function of a magnetic field shows the characteristic “butterfly” form. At fully frustration the sup ...
Chapter 15. - Portland State University
... for six blocks of the sorter/absorber butterfly to Fig. 15.3.4a. Figure 15. 3.4 presents simplified blocks of the sorter/absorber circuit. This is an iterative circuit. Iterative circuits are used in adders, comparators, multipliers and many other standard computing blocks. However, as we will see b ...
... for six blocks of the sorter/absorber butterfly to Fig. 15.3.4a. Figure 15. 3.4 presents simplified blocks of the sorter/absorber circuit. This is an iterative circuit. Iterative circuits are used in adders, comparators, multipliers and many other standard computing blocks. However, as we will see b ...
Kondo-model for quantum-dots with spin
... Consider a device structure where a scattering region (quantum dot) is connected to the outside world by coupling to two metal leads labeled by index α = L, R for left and right. The leads have voltages VL and VR and are assumed to be described by non-interacting electrons. By applying a bias-voltag ...
... Consider a device structure where a scattering region (quantum dot) is connected to the outside world by coupling to two metal leads labeled by index α = L, R for left and right. The leads have voltages VL and VR and are assumed to be described by non-interacting electrons. By applying a bias-voltag ...
Quantum Physics and the Holy Grail BRIAN JOHN PICCOLO
... system and its planetary systems or chains as they are called. We are in the fourth incarnation of our planetary system now. This is why we have four levels of consciousness. Each one was developed sequentially through each of the four incarnations (or rounds) of our earth. During the first incarnat ...
... system and its planetary systems or chains as they are called. We are in the fourth incarnation of our planetary system now. This is why we have four levels of consciousness. Each one was developed sequentially through each of the four incarnations (or rounds) of our earth. During the first incarnat ...
