Coupling Josephson qubits via a current
... still lacks for refocusing the dynamical-phase shifts of the qubits to realize the desired quantum operations. Here, we propose an effective scheme for coupling any pair of superconducting qubits without direct interaction between them by letting these be sequentially connected to a large CBJJ that ...
... still lacks for refocusing the dynamical-phase shifts of the qubits to realize the desired quantum operations. Here, we propose an effective scheme for coupling any pair of superconducting qubits without direct interaction between them by letting these be sequentially connected to a large CBJJ that ...
Few-Particle Effects in Semiconductor Quantum Dots: Spectrum Calculations on
... symmetry in semiconductor quantum dots using configuration interaction calculation. Moreover, to compare with the experimental data, we studied the effects of hidden symmetry. The 2D single-band model and the 3D single-band model were used to generate the single-particle states. How the spectra affe ...
... symmetry in semiconductor quantum dots using configuration interaction calculation. Moreover, to compare with the experimental data, we studied the effects of hidden symmetry. The 2D single-band model and the 3D single-band model were used to generate the single-particle states. How the spectra affe ...
PHYS - University of New Brunswick
... An introduction to the fundamentals of mechanics. Vector analysis and its application to the analysis of the motion of particles and rigid bodies. Newton's three laws of motion. The kinematics and dynamics of particle motion along straight and curved paths. Work, energy, impulse and momentum of part ...
... An introduction to the fundamentals of mechanics. Vector analysis and its application to the analysis of the motion of particles and rigid bodies. Newton's three laws of motion. The kinematics and dynamics of particle motion along straight and curved paths. Work, energy, impulse and momentum of part ...
ISM_CH22 - Academic Program Pages
... 14. For it to be possible for the net field to vanish at some x > 0, the two individual fields (caused by q1 and q2) must point in opposite directions for x > 0. Given their locations in the figure, we conclude they are therefore oppositely charged. Further, since the net field points more strongly ...
... 14. For it to be possible for the net field to vanish at some x > 0, the two individual fields (caused by q1 and q2) must point in opposite directions for x > 0. Given their locations in the figure, we conclude they are therefore oppositely charged. Further, since the net field points more strongly ...
Template file in Microsoft Word 97 for Windows
... wavefunctions. In order to calculate X and C it is necessary to assume some functional form to the two potentials and then calculate the contribution to the electronic energy as an integral over the electron density (and occasionally the gradient of the electron density). These calculations are pe ...
... wavefunctions. In order to calculate X and C it is necessary to assume some functional form to the two potentials and then calculate the contribution to the electronic energy as an integral over the electron density (and occasionally the gradient of the electron density). These calculations are pe ...
physics courses - University of Warwick
... as well as knowledge and skills which are valued by employers generally. Some of these benefits are less tangible than others, such as the pleasure that can come from being able to read about and understand the latest discoveries in science, while others are more specific. Where these skills are use ...
... as well as knowledge and skills which are valued by employers generally. Some of these benefits are less tangible than others, such as the pleasure that can come from being able to read about and understand the latest discoveries in science, while others are more specific. Where these skills are use ...
Discrete Transformations: Parity
... However, in the rest frame of the pion (as an example) it is still true that the outgoing anti-neutrino is ALWAYS right-handed We say that parity is maximally violated in weak decays (eg, there are not simply more left-handed neutrinos than right-handed neutrinos. There are NO right-handed neutrinos ...
... However, in the rest frame of the pion (as an example) it is still true that the outgoing anti-neutrino is ALWAYS right-handed We say that parity is maximally violated in weak decays (eg, there are not simply more left-handed neutrinos than right-handed neutrinos. There are NO right-handed neutrinos ...
Physics at the FQMT`04 conference
... understand many essential concepts of the quantum theory, thermodynamics and statistical physics in this new context. It is not a trivial task at all to decide what characterizes such small systems and what information we can gain from our measurements. The characteristic phenomena for these ‘‘mesos ...
... understand many essential concepts of the quantum theory, thermodynamics and statistical physics in this new context. It is not a trivial task at all to decide what characterizes such small systems and what information we can gain from our measurements. The characteristic phenomena for these ‘‘mesos ...
Application of Quantum Computing principles to Natural Language Processing
... one state to another is achieved by using a pulse of energy, such as from a laser let’s say that we use 1 unit of laser energy. But what if we only use half a unit of laser energy and completely isolate the particle from all external influences? According to quantum law, the particle then enters a s ...
... one state to another is achieved by using a pulse of energy, such as from a laser let’s say that we use 1 unit of laser energy. But what if we only use half a unit of laser energy and completely isolate the particle from all external influences? According to quantum law, the particle then enters a s ...
Lab 6: Complex Electrical Circuits
... You were first introduced to the field concept with the gravitational field. Gravity, you remember, is not a force that acts when two objects touch. It is a force that seems to act over a distance. Physicists have never been happy with the idea of “action-at-a-distance.” Rather, they prefer to think ...
... You were first introduced to the field concept with the gravitational field. Gravity, you remember, is not a force that acts when two objects touch. It is a force that seems to act over a distance. Physicists have never been happy with the idea of “action-at-a-distance.” Rather, they prefer to think ...
Target Space = Space Nick Huggett Department of Philosophy M/C
... Continuation of the technical aside: a little more formally, the point is that the algebra of observables on spatial wavefunctions for one string is mapped onto the identical (as we saw above) algebra of observables on winding wavefunctions of the other – with x ↔ y and p̂ ↔ ŵ. Since the wavefunct ...
... Continuation of the technical aside: a little more formally, the point is that the algebra of observables on spatial wavefunctions for one string is mapped onto the identical (as we saw above) algebra of observables on winding wavefunctions of the other – with x ↔ y and p̂ ↔ ŵ. Since the wavefunct ...
A Brief Analysis of the Mass-Energy Relation
... And the third quantitative prediction was put forward, in 1905, on the basis of Einstein's special relativity, in which variations in mass with speed are generalized and made independent of direction; and at the same time, mass and energy are assumed to be equivalent and convertible into each other, ...
... And the third quantitative prediction was put forward, in 1905, on the basis of Einstein's special relativity, in which variations in mass with speed are generalized and made independent of direction; and at the same time, mass and energy are assumed to be equivalent and convertible into each other, ...
Magnetism: Models and Mechanisms - cond
... The Hamiltonian (6) can, for a specific system, be quite complicated, and might include longrange exchange interactions or anisotropic terms. Nevertheless, it represents a huge simplification compared to the unsolvable many-body problem described by (5), since, at least within very good approximated ...
... The Hamiltonian (6) can, for a specific system, be quite complicated, and might include longrange exchange interactions or anisotropic terms. Nevertheless, it represents a huge simplification compared to the unsolvable many-body problem described by (5), since, at least within very good approximated ...
acta physica slovaca vol. 48 No. 3, 115 { 132 June 1998
... mechanics, and lies at the heart of quantum theory. Remarkably, if perfect cloning was permitted, the Heisenberg uncertainty principle could be violated by measuring conjugate observables on many copies of a single quantum system. Consider a cloning machine that duplicates a quantum bit (a 2-state s ...
... mechanics, and lies at the heart of quantum theory. Remarkably, if perfect cloning was permitted, the Heisenberg uncertainty principle could be violated by measuring conjugate observables on many copies of a single quantum system. Consider a cloning machine that duplicates a quantum bit (a 2-state s ...
![arXiv:1412.6954v1 [hep-ph] 22 Dec 2014](http://s1.studyres.com/store/data/008057210_1-f096d844b41fdb3feee8213a866fea62-300x300.png)
the hydrogen atom in a uniform magnetic field - an example
... Although the equations of motion of classical mechanics are strictly deterministic, the actual path along which a complex classical system evolves may depend extremely sensitively on the initial conditions so that the evolution of the system becomes de facto unpredictable. Such a system is said to b ...
... Although the equations of motion of classical mechanics are strictly deterministic, the actual path along which a complex classical system evolves may depend extremely sensitively on the initial conditions so that the evolution of the system becomes de facto unpredictable. Such a system is said to b ...
