The self-trapping energy and the induced potential of the exciton are derived.

Based on model of Huybrechts strong-coupling polaron,the ground state energy of the system,in which the excitons interact with both the weak-coupling bulk longitudinal-optical(LO) phonons and strong-coupling interface-optical(IO) phonons in a polar crystal,is studied by using the Lee-Low-Pines variational method,the self-trapping energy and the induced potential of the excitons are derived.

Here influences of electron spin on the magnetic field properties of self-trapping energy E_(tr) of the surface magnetopolaron in a semi-infinite crystal,weak coupling with bulk longitudinal optical phonons and strong coupling with surface longitudinal optical phonons,is studied by using unitary transformation,a linear combination operator and perturbation methods.

An expressions for the self trapping energy of the surface magnetopolaron as a function of the depth from the crystal surface, magnetic field and temperature were derived by using Huybrechts' linear combination operator and variational method.

The self trapping energy of the polaron was obtained as functions of the slab thickness and the coupling constants.

The law of the change of the self trapping energy of the magnetopolaron changing with the thickness of the slab and magnetic fields are derived.