Differential Equations - The University of Texas at Dallas
... where M is the carrying capacity of the environment: that is, M is the maximum population of the species that can fit in the environment and k > 0 is a constant depending on the reproduction rate of the species. For example if P represent the population of a bacteria in a petri dish then M would be ...
... where M is the carrying capacity of the environment: that is, M is the maximum population of the species that can fit in the environment and k > 0 is a constant depending on the reproduction rate of the species. For example if P represent the population of a bacteria in a petri dish then M would be ...
Lindblad theory of dynamical decoherence of quantum-dot excitons P. R. Eastham,
... Lindblad equation for the density operator of the dot, with time-dependent damping and decoherence due to phonon transitions between the instantaneous dressed states. It captures similar physics to the form recently applied to Rabi oscillation experiments [Ramsay et al., Phys. Rev. Lett. 104, 017402 ...
... Lindblad equation for the density operator of the dot, with time-dependent damping and decoherence due to phonon transitions between the instantaneous dressed states. It captures similar physics to the form recently applied to Rabi oscillation experiments [Ramsay et al., Phys. Rev. Lett. 104, 017402 ...
Fast converging path integrals for time-dependent potentials
... in [45]–[48] for obtaining a high-order short-time expansion of transition amplitudes of time-independent potentials to the important time-dependent case. This development allows a high-precision calculation of transition amplitudes, which is necessary for extracting the properties of various quantu ...
... in [45]–[48] for obtaining a high-order short-time expansion of transition amplitudes of time-independent potentials to the important time-dependent case. This development allows a high-precision calculation of transition amplitudes, which is necessary for extracting the properties of various quantu ...
Mirror QCD and Cosmological Constant
... corresponds to the minimum of the non-perturbative effective YM Lagrangian (12). It holds strictly beyond the Perturbation Theory, just like the YM trace anomaly itself. Thus, the exact solution (15) corresponds to the physical quantum ground state of an effective YM theory. It is important to point ...
... corresponds to the minimum of the non-perturbative effective YM Lagrangian (12). It holds strictly beyond the Perturbation Theory, just like the YM trace anomaly itself. Thus, the exact solution (15) corresponds to the physical quantum ground state of an effective YM theory. It is important to point ...
