In this paper, the Atomic Orbital Search (AOS) is proposed as a novel metaheuristic algorithm for optimization purposes. The main concept of this algorithm is based on some principles of quantum mechanics and the quantum-based atomic model in which the general configuration of electrons around ...
One of the preprocessing steps that must be performed in the QCP algorithm is the translation of each structure so that its center of mass lies at the origin. In cases where this criterion is known to be met, there is no need for further translation. During large-scale dissimilarity matrix...
Methods The basin hopping (BH) algorithm combined with density functional theory has been used to search the potential energy surface (PES). Generalized gradient approximation in the Perdue-Burke-Ernzerhof (PBE) functional and the double-numerical polarized (DNP) basis set with effective core ...
that for a fixed atom number the nonlinearity in Eq. (1) is smaller than in a genuine quasi-1D quantum Bose gas, and therefore a multiorbital description of the dynamics does not provide any significant improvement to our mean field theory, as we have checked via the multi-configurational...
1) Orbital vs. Planetary2) Must the infrastructure be captured intact? For the first question, many of us have debated and learned over the previous blog entries that orbital colonies are very fragile structures compared to planetary settlements and, as such, far more vulnerable to violent action...
The atomic orbital search algorithm showcases its potential in significantly improving the efficiency and performance of MPPT, ultimately contributing to the optimization of solar energy extraction and utilization. Keywords: atomic orbital search (AOS); maximum power point tracking (MPPT); metaheuristic ...
One professor who studies the earth and one who studies space came together in the pursuit to detect and define dark matter. They are one step closer. Using 16 years of archival data from GPS satellites that that orbit the earth, the University of Nevada
Ma's Inertial Property Algorithm Verification (IPAV) Project identifies the inertia properties of a spacecraft based on the impulse-momentum principal by incorporating the novel use of an onboard robotic arm. A large advantage of using a robotic arm to identify inertia, over existing methods, is...
To evaluate the algorithm's performance, we conducted extensive experiments using Typhoon HIL and compared it with other existing algorithms commonly employed for MPPT. The results clearly demonstrated that the proposed atomic orbital search algorithm outperformed the alternatives in terms of rapid ...
This phenomenon, the so-called ‘Migdal effect’, predicts a small but non-zero probability for atomic ionisation if the timescale for the nuclear ‘jolt’ is much shorter than the electronic orbital periods. In these cases the nucleus initially moves relative to its electrons without ‘carrying...