What the Humean Should Say About Entanglement
... particle on its own. What it does imply, is that, if p and q are each fed into different x-spin measuring devices, there is a 100% chance getting one “up” result and one “down” result, though the chances are 50/50 as to whether it’s q that’s x-spin down and p x-spin up or vice versa. According to Ma ...
... particle on its own. What it does imply, is that, if p and q are each fed into different x-spin measuring devices, there is a 100% chance getting one “up” result and one “down” result, though the chances are 50/50 as to whether it’s q that’s x-spin down and p x-spin up or vice versa. According to Ma ...
magnetic ordering phenomena and dynamic fluctuations in cuprate
... related to the fact they live in close proximity to the superconductors. Quantum effects are supposedly far more important and one can wonder if these are really understood. The next step is the idea of dynamical stripes. This corresponds with the notion that even in the fully developed superconduct ...
... related to the fact they live in close proximity to the superconductors. Quantum effects are supposedly far more important and one can wonder if these are really understood. The next step is the idea of dynamical stripes. This corresponds with the notion that even in the fully developed superconduct ...
Relativistic quantum information theory and quantum reference frames
... Quantum mechanics and general relativity are both extremely successful theories. However, the theories each have a limited domain of applicability which cannot adequately describe extreme phenomena where both quantum and gravitational effects are important. There is research into developing a fundam ...
... Quantum mechanics and general relativity are both extremely successful theories. However, the theories each have a limited domain of applicability which cannot adequately describe extreme phenomena where both quantum and gravitational effects are important. There is research into developing a fundam ...
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... ■ Explain the observation that the strong interaction does not distinguish between neutron and proton. ◆ Example: the mass difference between the two is very small: (mn - mp)/mn ≈ 10-3 ■ Heisenberg’s thought was that if you could turn off electromagnetism then mn = mp. ■ We now believe that that ...
... ■ Explain the observation that the strong interaction does not distinguish between neutron and proton. ◆ Example: the mass difference between the two is very small: (mn - mp)/mn ≈ 10-3 ■ Heisenberg’s thought was that if you could turn off electromagnetism then mn = mp. ■ We now believe that that ...
MUPRO main program manual
... Calculates the effective elastic stiffness c, dielectric permittivity κr, magnetic permeability μr, piezoelectric charge coefficient d, piezomagnetic coefficient q, and magnetoelectric coefficient α of a composite; calculates the spatial distribution of strain ε ...
... Calculates the effective elastic stiffness c, dielectric permittivity κr, magnetic permeability μr, piezoelectric charge coefficient d, piezomagnetic coefficient q, and magnetoelectric coefficient α of a composite; calculates the spatial distribution of strain ε ...
Spin in fractional quantum Hall systems
... so are the many–electron states in a non–interacting system; particularly for filling factors below one, where it is useful to be restricted to the lowest Landau level, all many–electron states have the same energy. Now, the effect of interelectronic interactions cannot be investigated by perturbati ...
... so are the many–electron states in a non–interacting system; particularly for filling factors below one, where it is useful to be restricted to the lowest Landau level, all many–electron states have the same energy. Now, the effect of interelectronic interactions cannot be investigated by perturbati ...
Floquet topological insulators Phys. Stat. Sol. Rap
... for the non-irradiated insulator. Recently it has been demonstrated that the Floquet Chern number may be non-zero (CF π 0) even if the non-irradiated system is an ordinary band insulator with no edge states and zero Chern number (CI = 0). This means that the effective Floquet Hamiltonian also has a ...
... for the non-irradiated insulator. Recently it has been demonstrated that the Floquet Chern number may be non-zero (CF π 0) even if the non-irradiated system is an ordinary band insulator with no edge states and zero Chern number (CI = 0). This means that the effective Floquet Hamiltonian also has a ...
Monday, Nov. 27, 2006 - UTA High Energy Physics page.
... Can consists of three u quarks These quarks in the ground state can have parallel spins to give ++ 3/2 spin A trouble!! What is the trouble? ...
... Can consists of three u quarks These quarks in the ground state can have parallel spins to give ++ 3/2 spin A trouble!! What is the trouble? ...
Quantum nonlocality
... an internal difference” We all know that two electrons exhibit no internal differences. •In classical physics one can try to “individuate” absolutely identical objects by considering their locations in space and time. •This is not possible in quantum physics since in it trajectories are meaningless. ...
... an internal difference” We all know that two electrons exhibit no internal differences. •In classical physics one can try to “individuate” absolutely identical objects by considering their locations in space and time. •This is not possible in quantum physics since in it trajectories are meaningless. ...
Chapter 1 - BYU Physics and Astronomy
... which each have ½ the energy of their progenitor. The daughter photons go off in two different predictable directions, but each carries with it a trait that is linked inexorably to ...
... which each have ½ the energy of their progenitor. The daughter photons go off in two different predictable directions, but each carries with it a trait that is linked inexorably to ...
NMR in metals, metal particles and metal cluster compounds
... the question ‘where’ the electrons are. In molecular solids the atoms (e.g. Xe) or molecules (e.g. benzene) retain their identity and are kept together by the rather weak van der Waals forces, based on induced electric dipoles. Permanent dipoles give rise to more directional forces, like the hydroge ...
... the question ‘where’ the electrons are. In molecular solids the atoms (e.g. Xe) or molecules (e.g. benzene) retain their identity and are kept together by the rather weak van der Waals forces, based on induced electric dipoles. Permanent dipoles give rise to more directional forces, like the hydroge ...