According to the relationship among the stimulated emission spectrum o f the laser gain medium,the dual-mode resonant wavelengths and the operating temperature of the microchip laser,the output power equalization mechanism of dual-frequen cy modes in a Nd-doped yttrium vanadate (Nd:YVO₄) microchip laser is experimentally investigated.In experim ents,by controlling the operating temperature of laser gain medium and the wavelength shifting between t he resonant wavelengths and the stimulated emission spectrum,the dual-frequency l aser with adjustable relative output power is provided.The experimental results also show that peak power ratio of dual-frequency modes (right component vs.left component) is decreased from 6.471to 0.028when the operating temperature of the microchip lasers increase d from 2.5℃ to 22.5℃ .When the operating temperature of the microchip laser is set at 9.1℃,the peak power ratio of dual-frequency modes is maintained at nearly 1.00∶1.00,wh ich is named as dual-mode power equalization.When the operating temperat ure of the microchip laser is set at 7.5℃,the peak power ratio reaches nearly 1.89∶1.00.In such a condition,the peak power pr oduct of dual-frequency modes reaches the maximum,which can be used for beat-noting with the highest e fficiency.