Markov Chain-Like Quantum Biological Modeling of Mutations
... the quantum biological channel capacity. However, this model is essentially memoryless and it is not able to properly model the propagation of mutation errors in time, the process of aging, and evolution of genetic information through generations. To solve for these problems, we propose novel quantu ...
... the quantum biological channel capacity. However, this model is essentially memoryless and it is not able to properly model the propagation of mutation errors in time, the process of aging, and evolution of genetic information through generations. To solve for these problems, we propose novel quantu ...
Quantum scattering
... Therefore, the task of constructing the semiclassics of a scattering system is completed, if we can find a connection between the spectral density d(E) and the scattering matrix S . We will see that (35.12) provides the clue. Note that the right hand side of (35.12) has nearly the structure of (35.1 ...
... Therefore, the task of constructing the semiclassics of a scattering system is completed, if we can find a connection between the spectral density d(E) and the scattering matrix S . We will see that (35.12) provides the clue. Note that the right hand side of (35.12) has nearly the structure of (35.1 ...
Angular Momentum Coupling and Rabi Frequencies for Simple
... coordinates x, y, and z. That is, if we rotate the function f an angle θ about the axis n, then f 0 (x, y, z) = Rf (x, y, z) = e−iθn·L f (x, y, z), where R represents a rotation operator.49 This is the so-called active view of rotations, where we change the function while holding our coordinate axes ...
... coordinates x, y, and z. That is, if we rotate the function f an angle θ about the axis n, then f 0 (x, y, z) = Rf (x, y, z) = e−iθn·L f (x, y, z), where R represents a rotation operator.49 This is the so-called active view of rotations, where we change the function while holding our coordinate axes ...
DesignCon 2002 - UF CISE
... Note however that in this modern viewpoint, the logical status of information—that is, its relationships and correlations with other available information—determines whether that information is effectively entropy or not. Suppose, for example, that I am now given the encryption key to the document. ...
... Note however that in this modern viewpoint, the logical status of information—that is, its relationships and correlations with other available information—determines whether that information is effectively entropy or not. Suppose, for example, that I am now given the encryption key to the document. ...
Chance in the Everett Interpretation
... But one of the three links, in the case of one-world theories, is easily explained—namely (iii), the link with uncertainty. Only allow that the dynamics is indeterministic (whether in a fundamental or effective sense), so that some kinds of events in the future are (at least effectively) unpredictab ...
... But one of the three links, in the case of one-world theories, is easily explained—namely (iii), the link with uncertainty. Only allow that the dynamics is indeterministic (whether in a fundamental or effective sense), so that some kinds of events in the future are (at least effectively) unpredictab ...
Bohmian Trajectories of the Two-Electron Helium Atom
... made even more evident in Heisenberg’s Uncertainty Principle which is a consequence of the non-commutative mathematics behind the theory. It says that there are certain pairs of measurable quantities associated with every system that are termed complementary observables. For a given pair of compleme ...
... made even more evident in Heisenberg’s Uncertainty Principle which is a consequence of the non-commutative mathematics behind the theory. It says that there are certain pairs of measurable quantities associated with every system that are termed complementary observables. For a given pair of compleme ...
Efficient Method to Perform Quantum Number Projection and
... correlation, the mean-field state is a Slater determinant composed of the singleparticle wave functions whose number is nothing else but the number of constituent particles. The truncation of the effective model space reduces the dimension of matrices dramatically in the most essential part of the cal ...
... correlation, the mean-field state is a Slater determinant composed of the singleparticle wave functions whose number is nothing else but the number of constituent particles. The truncation of the effective model space reduces the dimension of matrices dramatically in the most essential part of the cal ...
Schrodinger Evolution for the Universe: Reparametrization
... In that context, it is clear that they will require a spacetime metric in order to be defined. This metric can be specified either in terms of spacetime geometric data or via integration of spatial data and the necessary smearing functions that specify the embedding. Under either viewpoint, we see t ...
... In that context, it is clear that they will require a spacetime metric in order to be defined. This metric can be specified either in terms of spacetime geometric data or via integration of spatial data and the necessary smearing functions that specify the embedding. Under either viewpoint, we see t ...
Quantum effects in classical systems having complex energy
... a classical particle the energy spectrum is discrete. While classical mechanics consists of nothing more than solving a differential equation to find the exact trajectory of a particle, quantum mechanics is an abstract theory in which the physical state of the system is represented by a vector in a ...
... a classical particle the energy spectrum is discrete. While classical mechanics consists of nothing more than solving a differential equation to find the exact trajectory of a particle, quantum mechanics is an abstract theory in which the physical state of the system is represented by a vector in a ...
