A Robust Second-Order Conic Programming Model with Effective Budget of Uncertainty in Optimal Power Flow Problem

Abstract: Integrating large-scale wind energy in modern power systems is demanding more efficient mathematical models to properly address classical assumptions in power system problems. In particular, there are two main assumptions in power system problems with wind integration that have not been adequately studied yet; First, non-linear AC power flow equations have been linearized in most of the literature. Such simplifications can lead to inaccurate power flow calculations that may result in other technical issues. Se… Show more

“…Optical dipoles can be incorporated into dielectrics (such as polymers and glasses) and conveniently integrated with metal SPP structures (Salama & Youssef, 2018;Zhang et al, 2022). Although the solubility limit of dyes may be very high, the concentrations used in practice are far lower because of concentration-dependent effects that limit the excited state population density (such as Forster energy transfer between dipoles) or reduce the quantum efficiency and lifetime of the dipoles (such as the formation of dimers or clusters).…”

Surface Plasmon Lasers: Quantum Dot

“…Optical dipoles can be incorporated into dielectrics (such as polymers and glasses) and conveniently integrated with metal SPP structures (Salama & Youssef, 2018;Zhang et al, 2022). Although the solubility limit of dyes may be very high, the concentrations used in practice are far lower because of concentration-dependent effects that limit the excited state population density (such as Forster energy transfer between dipoles) or reduce the quantum efficiency and lifetime of the dipoles (such as the formation of dimers or clusters).…”

Surface Plasmon Lasers: Quantum Dot