Experimental study of ultracold Ca (40) plasma
Experimental study of ultracold 40Ca plasma
This work describes the approach that makes possible creation of the steady-state ultracold plasma having various densities and temperatures by means of continuous two-step optical excitation of 40Ca atoms in the MOT. A strongly coupled ultracold plasma can be used as an excellent test platform for studying many-body interactions associated with various plasma phenomena. The parameters of the plasma are studied using laser-induced fluorescence of calcium ions. The strongly coupled plasma with the peak ion density of 2.7X106 cm-3 and the minimum electron temperature near 2K has been prepared. The experimental setup for laser cooling of 40Ca atoms enables the capture of approximately 3X107 atoms in the trap. Spectra of Rydberg transitions in n1S0 states were recorded for n ranging from 40 to 120. The energies of these transitions allowed for the determination of the most precise value of the ionization potential, which is 49305.91966(4) cm-1 compared to known data. A sensitive diagnostic method for sparse ultracold plasma, based on the autoionization effect of Rydberg states of 40Ca atoms, has been developed. This method enables the detection of plasma with ion concentrations of up to 103 cm-3, roughly equivalent to an electric field intensity of 10-2 V/m.
תאריך עדכון אחרון : 28/01/2024