Apparatus and method for measuring nonlinearity parameter using laser

What is claimed is: 1. An apparatus for measuring a nonlinearity parameter using laser, the apparatus comprising: an exciting unit irradiating laser of a toneburst signal on a surface of a sample so as to excite the sample; a receiving unit irradiating laser beam for measurement on the surface of the sample on which the laser of the toneburst signal is irradiated from the exciting unit, using an interferometer, and receiving displacement information occurring on the surface of the sample over time; a component measuring unit performing a bandpass filtering for a signal received from the receiving unit so as to measure a first amplitude of a component of a fundamental frequency and a second amplitude of a component of a secondary harmonic wave, wherein the component measuring unit includes: a first bandpass filter unit extracting the component of the fundamental frequency of the signal measured from the receiving unit; a second bandpass filter unit extracting the component of the secondary harmonic wave of the signal measured from the receiving unit; and an oscilloscope measuring the first amplitude of the component of the fundamental frequency and the second amplitude of the component of the secondary harmonic wave that pass through the first bandpass filter unit and the second bandpass filter unit; and a nonlinearity parameter measuring unit for measuring the nonlinearity parameter using the measured first amplitude and the measured second amplitude from the component measuring unit. 2. The apparatus of claim 1 , wherein the exciting unit includes: a continuous wave (CW) laser generator; a toneburst laser exciter modulating a signal generated from the CW laser generator into the toneburst signal; and a third bandpass filter unit suppressing harmonic components of a signal output from the toneburst laser exciter. 3. The apparatus of claim 1 , wherein the interferometer uses a Michelson interferometer or a laser Doppler vibrometer. 4. A method for measuring a nonlinearity parameter using laser, the method comprising: an exciting operation irradiating laser of a toneburst signal on a surface of a sample so as to excite the sample; a receiving operation irradiating laser beam for measurement on the surface of the sample on which the laser of the toneburst signal is irradiated from the exciting operation, using an interferometer, and receiving displacement information occurring on the surface of the sample over time; a component measuring operation performing a bandpass filtering operation for a signal received from the receiving operation so as to measure a first amplitude of a component of a fundamental frequency and a second amplitude of a component of a secondary harmonic wave, wherein the bandpass filtering operation includes: a first bandpass filtering operation extracting the component of the fundamental frequency of the signal measured from the receiving operation; a second bandpass filtering operation extracting the component of the secondary harmonic wave of the signal measured from the receiving operation; and a component amplitude measuring operation measuring the first amplitudes of the component of the fundamental frequency and the second amplitude of the component of the secondary harmonic wave; and a nonlinearity parameter measuring operation for measuring the nonlinearity parameter using the measured first amplitude and the measured second amplitude from the component measuring operation. 5. The method of claim 4 , wherein the exciting operation includes: a laser generating operation generating continuous wave (CW) laser; a toneburst laser exciting operation modulating a signal generated from the laser generating operation into the toneburst signal; and a third bandpass filtering operation suppressing harmonic components of a signal output from the toneburst laser exciting operation. 6. The method of claim 4 , wherein the interferometer uses a Michelson interferometer or a laser Doppler vibrometer.