Quantum Entanglement and Information Quantifier for Correlated
... It is well known that, the correlation between quantum entanglement and Fisher information (FI), as we know about a certain parameter in a quantum state, has not been studied widely. However, there are some studies to quantify the pure state entanglement by using FI. In this regard, the entanglement ...
... It is well known that, the correlation between quantum entanglement and Fisher information (FI), as we know about a certain parameter in a quantum state, has not been studied widely. However, there are some studies to quantify the pure state entanglement by using FI. In this regard, the entanglement ...
Energy and angular distributions of electrons resulting from barrier
... To be sure, in the weak-field case [ t a l in Eq. (18)] expression (19) goes over to the result (14) obtained above, corresponding to the tunneling mechanism of ionization. This limit is found using the familiar asymptotic expansion of the Airy function for large argument. From (19) it follows that ...
... To be sure, in the weak-field case [ t a l in Eq. (18)] expression (19) goes over to the result (14) obtained above, corresponding to the tunneling mechanism of ionization. This limit is found using the familiar asymptotic expansion of the Airy function for large argument. From (19) it follows that ...
The Kabbalistic Radla and Quantum Physics
... the Jewish mystical tradition.1 This enterprise is pursued for varied purposes. Sometimes religious Jews mobilize the similarities in an attempt to show what they regard as the prescience of Kabbalah, its foreknowledge of modern physics; sometimes scientists, whether religious or not, extract from K ...
... the Jewish mystical tradition.1 This enterprise is pursued for varied purposes. Sometimes religious Jews mobilize the similarities in an attempt to show what they regard as the prescience of Kabbalah, its foreknowledge of modern physics; sometimes scientists, whether religious or not, extract from K ...
How Fractional Charge on an Electron in the Momentum Space is
... That is why Eisenstein of Caltech (USA), on the basis of experimental results, considered quasi particle nature of bounded electron due to its morphological changes. ...
... That is why Eisenstein of Caltech (USA), on the basis of experimental results, considered quasi particle nature of bounded electron due to its morphological changes. ...
Bound states in inhomogeneous magnetic field in graphene
... Therefore one of the two quantization conditions, involving the coordinate x2 and the conjugate momentum p2, is exactly the same as it would be for a scalar wave function 关this corresponds to ␣2 = 0 in Eq. 共12兲兴. In the quantization condition involving p1 and x1, however, the phase ␣1 is in general ...
... Therefore one of the two quantization conditions, involving the coordinate x2 and the conjugate momentum p2, is exactly the same as it would be for a scalar wave function 关this corresponds to ␣2 = 0 in Eq. 共12兲兴. In the quantization condition involving p1 and x1, however, the phase ␣1 is in general ...
Ultracold Atomic Gases
... Cooper pair is the name given to electrons that are bound together at low temperatures in a certain manner first described in 1956 by Leon Cooper.[1] Cooper showed that an arbitrarily small attraction between electrons in a metal can cause a paired state of electrons to have a lower energy than the ...
... Cooper pair is the name given to electrons that are bound together at low temperatures in a certain manner first described in 1956 by Leon Cooper.[1] Cooper showed that an arbitrarily small attraction between electrons in a metal can cause a paired state of electrons to have a lower energy than the ...
