Energy of polaron and effects of electron-phonon interaction in wurtzite GaN/Al_xGa_1-xN quantum well is investigated by using modified LLP variational method.The confined phonon modes,interface phonon modes,and their anistropy are considered.The ground state energy,the excited state energy,the transition energy of polaron,and the contribution of the electron-phonon interaction to the energy with the well width and composition are calculated.In order to compare,the corresponding results in zinc-blende quantum well are given.The results show that the contribution of interface phonon modes to polaron energy are larger than that of the confined modes for narrow wells,and the contribution of the confined modes to polaron energy are larger than that of the contribution of the interface phonon modes for width wells.The contribution of the electron-phonon interaction to the energy of polaron in wurtzite quantum well is larger than that of in zinc-blende quantum well.The contribution of electronphonon interaction to the energy of polaron in GaN/Al_xGa_1-xN quantum well is much larger than that in GaAs/Al_xGa_1-xAs quantum well.For example,when the well width is 20 nm,the electron-phonon interaction energy is about-35 meV and-2.5 meV.