Octonionic Dirac Equation
... which we call fully barred quaternions, or simply barred quaternions. They, with their 16 linearly independent elements, form a basis of GL(4, R) and are successfully used to reformulate Lorentz space-time transformations [25] and write down a one-component Dirac equation [21]. Thus, it seems to us ...
... which we call fully barred quaternions, or simply barred quaternions. They, with their 16 linearly independent elements, form a basis of GL(4, R) and are successfully used to reformulate Lorentz space-time transformations [25] and write down a one-component Dirac equation [21]. Thus, it seems to us ...
Strong-Disorder Fixed Point in the Dissipative Random Transverse-Field Ising Model
... physical mechanism responsible for the ‘‘non-Fermiliquid’’ behavior observed in many heavy-fermion materials [10,11]. However, it was also argued that in a dissipative environment, as in metals due to the conduction electrons, such a quantum Griffiths behavior might essentially be nonexistent [12,13 ...
... physical mechanism responsible for the ‘‘non-Fermiliquid’’ behavior observed in many heavy-fermion materials [10,11]. However, it was also argued that in a dissipative environment, as in metals due to the conduction electrons, such a quantum Griffiths behavior might essentially be nonexistent [12,13 ...
An Analysis of the Quantum Penny Flip Game using Geometric
... mechanical correlations in strategic interactions between two or more players of quantum games, and more generally to exploit the analytical tools of game theory to better understand quantum correlations. We demonstrate in Section 4, however, that for the quantum penny flip game conventional methods ...
... mechanical correlations in strategic interactions between two or more players of quantum games, and more generally to exploit the analytical tools of game theory to better understand quantum correlations. We demonstrate in Section 4, however, that for the quantum penny flip game conventional methods ...
Quantum analogue computing
... our models are good, and hence we understand at some level how the system works. We may then use our computer simulations to predict things we have not yet observed, or provide more details of processes that are hard to observe by experiment. That computation of any sort works in a useful way is not ...
... our models are good, and hence we understand at some level how the system works. We may then use our computer simulations to predict things we have not yet observed, or provide more details of processes that are hard to observe by experiment. That computation of any sort works in a useful way is not ...
Commentary_Basti
... gives at last a rigorous dynamic explanation to such a notion that both classical thermodynamics and QM are unable to offer! «20». Indeed, at the relativistic microscopic level, a phase coherence propagate with a phase velocity of the order c2/v, where c is the light velocity1, and v c is the velo ...
... gives at last a rigorous dynamic explanation to such a notion that both classical thermodynamics and QM are unable to offer! «20». Indeed, at the relativistic microscopic level, a phase coherence propagate with a phase velocity of the order c2/v, where c is the light velocity1, and v c is the velo ...
Full Text PDF - Science and Education Publishing
... frequency; b) spin correlations may take place between the spins of pairs of virtual particles. The 2nd concept. In the physical vacuum there may exist quantum harmonic oscillators possessing zero-point energy. The concept of zero-point energy was developed in Germany by Albert Einstein and Otto Ste ...
... frequency; b) spin correlations may take place between the spins of pairs of virtual particles. The 2nd concept. In the physical vacuum there may exist quantum harmonic oscillators possessing zero-point energy. The concept of zero-point energy was developed in Germany by Albert Einstein and Otto Ste ...
Quantum Channel Capacities (PDF Available)
... this message and hopefully he will get the initial message or is able to recover it. The question now is, how we could do so? This was, more or less, the quantum capacity theorem spoken in some simple words, i.e. the question how Alice and Bob can manage the reliable transmission of information by u ...
... this message and hopefully he will get the initial message or is able to recover it. The question now is, how we could do so? This was, more or less, the quantum capacity theorem spoken in some simple words, i.e. the question how Alice and Bob can manage the reliable transmission of information by u ...
Developments of the Theory of Spin Susceptibility in Metals
... of the plates. The propagating states are orthogonal to the bound states. At the crucial distance the bound state appears with zero energy and in nite range. The part of the Hilbert space which belongs to the bound state, is taken over from the propagating states in a smooth way which escapes detect ...
... of the plates. The propagating states are orthogonal to the bound states. At the crucial distance the bound state appears with zero energy and in nite range. The part of the Hilbert space which belongs to the bound state, is taken over from the propagating states in a smooth way which escapes detect ...
