Structure determination of alkali trimers on helium nanodroplets through laser-induced Coulomb explosion (2402.00587v1)
Abstract: Alkali trimers, Ak$3$, located on the surface of He nanodroplets are triply ionized following multiphoton absorption from an intense femtosecond laser pulse leading to fragmentation into three correlated Ak$+$ ions. Combining the information from three-fold covariance analysis of the emission direction of the fragment ions and from their kinetic energy distributions $P(E{\text{kin}})$, we find that Na$3$, K$_3$, and Rb$_3$ have an equilateral triangular structure, corresponding to that of the lowest-lying quartet state ${4}\mathrm{A}{2}'$, and determine the equilibrium bond distance $R_\text{eq}$(Na$3$) = 4.65 $\pm$ 0.15 {\AA}, $R\text{eq}$(K$3$) = 5.03 $\pm$ 0.18 {\AA}, and $R\text{eq}$(Rb$_3$) = 5.45 $\pm$ 0.22 {\AA}. For K$_3$ and Rb$_3$ these values agree well with existing theoretical calculations, while for Na$_3$ the value is 0.2-0.3 {\AA} larger than the existing theoretical results. The discrepancy is ascribed to a minor internuclear motion of Na$_3$ during the ionization process. Also, we determine the distribution of internuclear distances $P(R)$ under the assumption of fixed bond angles. The results are compared to the square of the internuclear wave function $|\Psi(R)|2$.
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