Eigenstate Phase Transitions
... entire closed quantum system, the time evolution is unitary; it will never reach equilibrium, because such a state is, by definition, fully determined by initial conditions. In other words, the unitary time evolution “remembers” all information about the initial state. Instead, we consider thermaliz ...
... entire closed quantum system, the time evolution is unitary; it will never reach equilibrium, because such a state is, by definition, fully determined by initial conditions. In other words, the unitary time evolution “remembers” all information about the initial state. Instead, we consider thermaliz ...
A logico-conceptual analysis of the Einstein-Podolsky
... are the position and momentum of a particle with one degree of freedom: the momentum eigenfunctions, ψ = exp[(2πi/h)p0x], are not eigenfunctions of the position. So far, so good. But EPR go on, affirming that in QM the value of the position cannot be known when the object is in an eigenstate of mome ...
... are the position and momentum of a particle with one degree of freedom: the momentum eigenfunctions, ψ = exp[(2πi/h)p0x], are not eigenfunctions of the position. So far, so good. But EPR go on, affirming that in QM the value of the position cannot be known when the object is in an eigenstate of mome ...
Inertia First
... Has energy and mass, which it shares with others What it is . . . (from what I can gather) ...
... Has energy and mass, which it shares with others What it is . . . (from what I can gather) ...
Water line lists close to experimental accuracy using a
... starting point in Ref. 1 but also produced a D2O line list accurate to about 0.02 cm−1 as well.20 A FORTRAN version of PES367 is given, along with the spectroscopically determined PESs derived below, in EPAPS.32 All nuclear motion calculations were performed using the program suite DVR3D,33 in Radau ...
... starting point in Ref. 1 but also produced a D2O line list accurate to about 0.02 cm−1 as well.20 A FORTRAN version of PES367 is given, along with the spectroscopically determined PESs derived below, in EPAPS.32 All nuclear motion calculations were performed using the program suite DVR3D,33 in Radau ...
Chapter11
... length 2L and L has two forces acting on it, as shown in the drawing. One of the forces has a magnitude F and the other has a magnitude 2F. The bracket is free to rotate about the point P shown. What is the magnitude and direction of the net torque acting on this bracket? a) 1.29LF, into the page/sc ...
... length 2L and L has two forces acting on it, as shown in the drawing. One of the forces has a magnitude F and the other has a magnitude 2F. The bracket is free to rotate about the point P shown. What is the magnitude and direction of the net torque acting on this bracket? a) 1.29LF, into the page/sc ...
Chapter 8:
... and weight 80.0 N. A cable, inclined at a 35 angle with the boom, is attached at a distance of 2.38 m from the hinge at the wall. The weight of the sign is 120.0 N. ...
... and weight 80.0 N. A cable, inclined at a 35 angle with the boom, is attached at a distance of 2.38 m from the hinge at the wall. The weight of the sign is 120.0 N. ...
A Classical-Light Attack on Energy-Time Entangled Quantum Key Distribution, and Countermeasures
... Persian customs, but almost the recipient as well. This method of Demeratus’, disguising a message where nobody would look, is called steganography. Not to be confused with the handwriting technique of stenography, there are numerous ways in which steganography has been used throughout history. Invi ...
... Persian customs, but almost the recipient as well. This method of Demeratus’, disguising a message where nobody would look, is called steganography. Not to be confused with the handwriting technique of stenography, there are numerous ways in which steganography has been used throughout history. Invi ...
Spin-Orbital Separation in the quasi 1D Mott
... to the atomic nucleus it also acquires an angular momentum quantum number corresponding to the quantized atomic orbital it occupies (e.g., s, p or d). Even if electrons in solids form bands and delocalize from the nuclei, in Mott insulators they retain their three fundamental quantum numbers: spin, ...
... to the atomic nucleus it also acquires an angular momentum quantum number corresponding to the quantized atomic orbital it occupies (e.g., s, p or d). Even if electrons in solids form bands and delocalize from the nuclei, in Mott insulators they retain their three fundamental quantum numbers: spin, ...
Topological properties of a Valence-Bond
... Similarly, a π/2 domain wall can realized by setting asymmetric open boundary conditions forcing horizontal and vertical bond patterns at the edges. The energy difference to e0 (L) multiplied by the system size again converges to a constant when system size L tends to infinity (see Fig. 5). The cons ...
... Similarly, a π/2 domain wall can realized by setting asymmetric open boundary conditions forcing horizontal and vertical bond patterns at the edges. The energy difference to e0 (L) multiplied by the system size again converges to a constant when system size L tends to infinity (see Fig. 5). The cons ...
Countermeasure against tailored bright illumination attack for DPS
... however, note that the security proof is based on certain assumptions on its physical implementation, such as the eavesdropper should have no access to Alice’s transmitter and Bob’s receiver, and their devices should operate as required by the protocol [4]. In practice, however, it is often the case ...
... however, note that the security proof is based on certain assumptions on its physical implementation, such as the eavesdropper should have no access to Alice’s transmitter and Bob’s receiver, and their devices should operate as required by the protocol [4]. In practice, however, it is often the case ...
Toward the Unification of Physics and Number Theory
... One can decode the projection itself to induce the preprojected cube and the possible projection angles. To form a quasicrystal, more than one cell is projected. A slice of the higher dimensional crystal, called a cut window, is projected to the lower dimensional space. The coordinate of the cut win ...
... One can decode the projection itself to induce the preprojected cube and the possible projection angles. To form a quasicrystal, more than one cell is projected. A slice of the higher dimensional crystal, called a cut window, is projected to the lower dimensional space. The coordinate of the cut win ...