Numerical analysis on the optical force calculation in the Rayleigh scattering regime

“…The phase diffusion process for a pulsed semiconductor laser is comprehensively studied due to its performance as a quantum random number generator [22]. The optical force analysis in the Rayleigh scattering regime is performed, and the numerical results are compared with the generalized Lorenz Mie theory [23]. Campbell et al [24] utilized the cooling process from photon spin to damp torque on linear small molecules to the Doppler limit of m »500 K. Nowadays, individually controlled neutral atoms, especially with Rydberg states [25], have developed as a promising platform for quantum simulations.…”

Optical forces on neutral atoms in the presence of fluctuating laser fields: numerical analysis

“…The phase diffusion process for a pulsed semiconductor laser is comprehensively studied due to its performance as a quantum random number generator [22]. The optical force analysis in the Rayleigh scattering regime is performed, and the numerical results are compared with the generalized Lorenz Mie theory [23]. Campbell et al [24] utilized the cooling process from photon spin to damp torque on linear small molecules to the Doppler limit of m »500 K. Nowadays, individually controlled neutral atoms, especially with Rydberg states [25], have developed as a promising platform for quantum simulations.…”

Optical forces on neutral atoms in the presence of fluctuating laser fields: numerical analysis

Feasibility investigation on using silver nanorods in energy saving windows for light/heat decoupling

T-matrix methods for electromagnetic structured beams: A commented reference database for the period 2019–2023