New Types of Hydrogenlike matter Composed of Electron(s) and Meson(s)

Abstract

In the present work, we predict the existence of new types of hydrogenlike matter, including hydrogenlike atoms (π+e-, K+e-, D+e-), hydrogenlike molecular ions (π+π+e-, K+K+e-, D+D+e-) and hydrogenlike molecules (π+π+e-e-, K+K+e-e-, D+D+e-e-). By solving the Schr\"odinger equation, the binding energy of hydrogenlike atoms is obtained as En=-12n2. For hydrogenlike molecular ions and molecules, the variational method is employed to calculate the binding energies, i.e., E+=-0.587 and E0=-1.139 for hydrogenlike molecular ions and molecules, respectively. And the bond lengths for hydrogenlike molecular ions and molecules are also calculated, whose values are 2.003 and 1.414, respectively. Here all the quantities are in atomic units for convenience. In addition, the strong interaction between the two constituent mesons is considered in our calculations, where we find that its influence on the hydrogenlike molecular ions and molecules can be neglected. Comparisons of hydrogenlike molecular ion and molecule with the systems governed by the strong interaction are made, which suggests the possible existence of doubly heavy triquark, hidden heavy-flavor tetraquarks and doubly heavy tetraquarks. Hopefully, these types of matter would be observed in the future with the improvement of accuracy in the high energy physical experiments.