Micro-Chip

      "Micro-Chip" is the program for computation of a diode end-pumping micro-chip solid-state lasers in quasi-CW mode of operation (with passive Q-Switch). Program allows to carry out computations of a single pulse and the computation of functional dependensies versus parameters of initial data.



Parameters of an active element. You may load experimental spectral distribution of active element absorption from file (red cololor curve)

Fig. 1. Parameters of an active element. You may load experimental spectral distribution of active element absorption from file (red cololor curve)



Program takes into account the spectral width of active element absorption, spectral width of puming radiation and wavelength mismatch between ones

Fig. 2. Program takes into account the spectral width of active element absorption, spectral width of puming radiation and wavelength mismatch between ones



In section "Q-switch" parameters you may edit parameters of Q-switch element and execute the computation of parameters. The four levels model is used in program for passive Q-switch

Fig. 3. In section "Q-switch" parameters you may edit parameters of Q-switch element and execute the computation of parameters. The four levels model is used in program for passive Q-switch



Temporal computation allows you to obtain results for gain of media (violet), cavity losses (green), generation pulse (red) and Q-switch transmition (blue)

Fig. 4. Temporal computation allows you to obtain results for gain of media (violet), cavity losses (green), generation pulse (red) and Q-switch transmition (blue)



Application of a functional computation allows you to obtain functional dependencies versus parameters of laser elements and regimes of operation

Fig. 5. Application of a functional computation allows you to obtain functional dependencies versus parameters of laser elements and regimes of operation



Easy optimization may be carried out in functional computation mode - for example versus output mirror reflection

Fig. 6. Easy optimization may be carried out in functional computation mode - for example versus output mirror reflection