On the Formal Verification of Optical Quantum Gates in HOL
... of the targeted quantum definitions and theorems there are quantifications over functions and predicates. Based on [14], the formal model of one of the quantum computer gates, namely the optical flip gate, has been developed along with its verification [13]. However, the existing work is limited to sing ...
... of the targeted quantum definitions and theorems there are quantifications over functions and predicates. Based on [14], the formal model of one of the quantum computer gates, namely the optical flip gate, has been developed along with its verification [13]. However, the existing work is limited to sing ...
- Philsci
... different foliations can be ascribed entirely to the fact that the different foliations join up points of spacetime in different ways to form instantaneous hypersurfaces of simultaneity, on which global states are defined, and (d) a complete state history given with respect to one foliation uniquely ...
... different foliations can be ascribed entirely to the fact that the different foliations join up points of spacetime in different ways to form instantaneous hypersurfaces of simultaneity, on which global states are defined, and (d) a complete state history given with respect to one foliation uniquely ...
Metric fluctuations and decoherence
... In [7] we showed that a fluctuating spacetime metric would modify the inertial mass of quantum particles and, thus, leads to an apparent violation of the equivalence principle which gave additional motivation to performing improved atom interferometric tests of the equivalence principle. Here we der ...
... In [7] we showed that a fluctuating spacetime metric would modify the inertial mass of quantum particles and, thus, leads to an apparent violation of the equivalence principle which gave additional motivation to performing improved atom interferometric tests of the equivalence principle. Here we der ...
İ.Ü.Fen Fakültesi Fizik Bölümü İngilizce Dersleri, Kısa İçerikleri
... identical particles have symmetric / anti-symmetric wavefunctions and that Pauli exclusion principle applies to fermions, Fermi surface, band structure in solids; application of time-independent perturbation theory in the non-degenerate and degenerate cases and time-dependent perturbation theory to ...
... identical particles have symmetric / anti-symmetric wavefunctions and that Pauli exclusion principle applies to fermions, Fermi surface, band structure in solids; application of time-independent perturbation theory in the non-degenerate and degenerate cases and time-dependent perturbation theory to ...
linear vector space, V, informally. For a rigorous discuss
... and it is imperative that you master it.1 The space is endowed with the operation of addition(+) for each pair of vectors and multiplication by ‘scalars’ (which belong to the field of complex numbers, C, in our case): If |ui and |vi are vectors so are |ui + |vi and c|vi where c is a complex number(c ...
... and it is imperative that you master it.1 The space is endowed with the operation of addition(+) for each pair of vectors and multiplication by ‘scalars’ (which belong to the field of complex numbers, C, in our case): If |ui and |vi are vectors so are |ui + |vi and c|vi where c is a complex number(c ...
CR2
... subatomic particles whether free, bound, or localized). It is not a simple algebraic equation, but in general a linear partial differential equation, describing the time-evolution of the system's wave function (also called a "state function"). The concept of a wavefunction is a fundamental postulate ...
... subatomic particles whether free, bound, or localized). It is not a simple algebraic equation, but in general a linear partial differential equation, describing the time-evolution of the system's wave function (also called a "state function"). The concept of a wavefunction is a fundamental postulate ...
13. Crafting the Quantum.II
... "At the origin is shown, in its correct position and approximately to correct scale, the arrangement which was used in our earlier experiments for exciting the oscillations. The lines of force are not continued right up to this picture, for our formulas assume that the oscillator is infinitely short ...
... "At the origin is shown, in its correct position and approximately to correct scale, the arrangement which was used in our earlier experiments for exciting the oscillations. The lines of force are not continued right up to this picture, for our formulas assume that the oscillator is infinitely short ...
How Albert Einstein invented entanglement despite his intention
... It is common knowledge that Albert Einstein at the beginning of the last century invented both the Special (1905) – and the General Theory of Relativity (1915). It is also common knowledge that in 1905, he invented the photon as an elementary particles of light. Less commonly known is Einstein’s lif ...
... It is common knowledge that Albert Einstein at the beginning of the last century invented both the Special (1905) – and the General Theory of Relativity (1915). It is also common knowledge that in 1905, he invented the photon as an elementary particles of light. Less commonly known is Einstein’s lif ...
Physics 535 lecture notes: - 10 Oct 4th, 2007 Homework: 6.2, 6.3
... similar properties relative to the strong force, and whether they are expected to be more massive. These particles can also be in ground or excited spin and angular momentum states. To classify a particle and understand it’s interactions all these quantum numbers need to be determined. In addition, ...
... similar properties relative to the strong force, and whether they are expected to be more massive. These particles can also be in ground or excited spin and angular momentum states. To classify a particle and understand it’s interactions all these quantum numbers need to be determined. In addition, ...
A brief introduction to Quantum computer Alri Moore`s law the
... ——- Gordon E. Moore, the co-founder of Intel ...
... ——- Gordon E. Moore, the co-founder of Intel ...
Scattering model for quantum random walks on a hypercube
... The SQRW is more viable from the experimental point of view, can be extended to nonregular graphs, and is equivalent to CQRW on the regular graphs. We will investigate a particular arrangement of the multiports when are localized at the vertices of a hypercube. The array of multiports effectively ac ...
... The SQRW is more viable from the experimental point of view, can be extended to nonregular graphs, and is equivalent to CQRW on the regular graphs. We will investigate a particular arrangement of the multiports when are localized at the vertices of a hypercube. The array of multiports effectively ac ...
Using Matlab to Calculate Top Performance
... how difficult it is to change its angular motion about that axis. Therefore, it encompasses not just how much mass the object has overall, but how far each bit of mass is from the axis. The farther out the object's mass is, the more rotational inertia the object has, and the more force is required t ...
... how difficult it is to change its angular motion about that axis. Therefore, it encompasses not just how much mass the object has overall, but how far each bit of mass is from the axis. The farther out the object's mass is, the more rotational inertia the object has, and the more force is required t ...