Computational and Theoretical models created for optical physics research with Matlab:
(1) Predicted temeprate effects on Er-Yb co-doped high-power fiber lasers based on rate equations including energy exchange between Er and Yb states
(2) Learned Hg molecular dynamics, gained Hg, Hg2, Hg3, Hg4 states decay coefficients, based on a new rate equation model including three-body formation processes and updated experimental observations
(3) Constructed a comprehensive quantum mechanical simulations of the photoassociation spectrum of the B โ X transition of XeI with a developed detailed potential description of the X state, including V-R coupled energy structure, achieving improved spectroscopic constants for B and X states
(4) Decay rates fitting / learning of several molecules: ScI, YI, Hg2, Hg3
(5) Labview, Matlab and Arduino programs to control spectrometers, lasers, oscilloscopes, photomultiplier tubes (PMT), photodiodes, energy meters etc... are also included in HardwareControl folder
(6) most of the files names contain my first English name Wendy ^^
sophiegarden / optical-physics-models Goto Github PK
View Code? Open in Web Editor NEWSimulation/computation models created for optical physics research