Method for measurement of vibration property of structure, and vibration property measurement device

The invention claimed is: 1. A method for generating vibration and measuring vibration properties, which may include frequency response function (FRF), of a structure with an output sensor, comprising: (A) supporting the structure peripherally freely and positioning a portion of the structure in one selected from the group consisting of liquid, gas and a vacuum; (B) positioning the output sensor in a configuration wherein the output sensor is unattached or attached to the structure; (C) irradiating a surface of the structure or a vicinity of the surface of the structure with a pulse laser beam from a pulse laser oscillator, to produce an impulse excitation force induced by laser ablation or an impulse excitation sound pressure induced by laser induced breakdown; (D) vibrating the structure through application of the impulse excitation force or the impulse excitation sound pressure; (E) measuring acceleration response or velocity response at a measurement point on the surface of the structure with an accelerometer, a laser Doppler vibrometer or a laser displacement gage; (F) estimating the relationship between the laser intensity and the impulse excitation force or the impulse excitation sound pressure through application of the rigid pendulum method, and calculating magnitude F of the impulse excitation force or the impulse excitation sound pressure applied to the structure, the estimating comprising preparing a rigid body block freely supported, irradiating a surface of the rigid body block or a vicinity of the surface of the rigid body block with a pulse laser beam to produce an impulse excitation force induced by laser ablation or an impulse excitation sound pressure induced by laser induced breakdown, applying the impulse excitation force or the impulse excitation sound pressure to the excitation point of the rigid body block and measuring the acceleration response or the velocity response of the measurement point of the rigid body block; and (G) calculating a complex Fourier spectrum normalized by the magnitude F comprising dividing a complex Fourier spectrum of the frequency amplitude and the vibration amplitude obtained from the acceleration response or the velocity response, by the magnitude F of the impulse excitation force or the impulse excitation sound pressure in order to determine the vibration properties of the structure. 2. The method of claim 1 , further comprising measuring application time L of the impulse excitation force or the impulse excitation sound pressure corresponding to the amount of time the impulse excitation force or the impulse excitation sound pressure is applied to the structure and correcting properties of the complex Fourier spectrum normalized by the magnitude F with the application time L.