Method for estimating a stiffness of a deformable part

The invention claimed is: 1. A method for estimating a stiffness of a deformable part of a system for analyzing at least one characteristic of a sample, the system including: the deformable part capable of interacting with the sample to be analyzed, a source, upstream from the deformable part, for emitting a light beam toward the deformable part, a sensor downstream from the source for detecting the beam reflected on the deformable part, said beam being capable of moving in a direction of interest depending on the deformation of the deformable part, the sensor including at least one first photodetector for recording a first signal representative of a first portion of the beam reflected by the deformable part, and at least one second photodetector arranged in line with the first photodetector in the direction of interest for recording a second signal representative of a second portion of the beam reflected by the deformable part and distinct from the first portion, the first and second signals depending on the deformation; wherein the method comprises the steps consisting in: receiving a first signal recorded by the first photodetector, and a second signal recorded by the second photodetector, calculating a cross-correlation of the first and second signals for obtaining an intercorrelated signal representative of a power spectral density or a root-mean-square deformation, estimating the stiffness of the deformable part depending on the intercorrelated signal. 2. The estimating method according to claim 1 , wherein: the first photodetector comprises at least one first photodiode and one second photodiode for recording first and second elementary signals, the sum of the first and second elementary signals being representative of the first portion of the reflected beam recorded by the first photodetector, the second photodetector comprises at least one third photodiode and one fourth photodiode for recording third and fourth elementary signals, the sum of the third and fourth elementary signals being representative of the second portion of the reflected beam recorded by the second photodetector, the method comprising a step of calculating a first resultant signal from the first and third elementary signals, and a second resultant signal from the second and fourth elementary signals, the step of calculating a cross-correlation consisting in intercorrelating the first and second resultant signals for obtaining the intercorrelated signal. 3. The estimating method according to claim 2 , wherein the step consisting in calculating the first and second resultant signals comprises the following substeps: calculating the difference between the first and third elementary signals for obtaining the first resultant signal, and calculating the difference between the second and fourth elementary signals for obtaining the second resultant signal. 4. The estimating method according to claim 2 , wherein: the step consisting in calculating the first and second resultant signals comprises the following substeps: calculating a ratio of the difference between the first and third elementary signals to the sum of the first and third elementary signals, and calculating a ratio of the difference between the second and fourth elementary signals to the sum of the second and fourth elementary signals. 5. The estimating method according to claim 1 , wherein: the first photodetector comprises at least one first photodiode and one second photodiode for recording first and second elementary signals, the sum of the first and second elementary signals being representative of the first portion of the reflected beam recorded by the first photodetector, the second photodetector comprises at least one third photodiode and one fourth photodiode for recording third and fourth elementary signals, the sum of the third and fourth elementary signals being representative of the second portion of the reflected beam recorded by the second photodetector, the method comprising a step of calculating a first resultant signal from the first and second elementary signals, and a second resultant signal from the third and fourth elementary signals, the step of calculating a cross-correlation consisting in intercorrelating the first and second resultant signals for obtaining the intercorrelated signal. 6. The estimating method according to claim 5 , wherein the step consisting in calculating the first and second resultant signals comprises the following substeps: calculating the difference between the first and second elementary signals for obtaining the first resultant signal, and calculating the difference between the third and fourth elementary signals for obtaining the second resultant signal. 7. The estimating method according to claim 5 , wherein: the step consisting in calculating the first and second resultant signals comprises: calculating a ratio of the difference between the first and second elementary signals to the sum of the first and second elementary signals, and calculating a ratio of the difference between the third and fourth elementary signals to the sum of the third and fourth elementary signals. 8. A device for estimating a stiffness of a deformable part of a system for analyzing at least one characteristic of a sample, the system including: the deformable part capable of interacting with the sample to be analyzed, a source, upstream from the deformable part, for emitting a light beam toward the deformable part, a sensor downstream from the source for detecting the beam reflected on the deformable part, said beam being capable of moving in a direction of interest depending on the deformation of the deformable part, the sensor including at least one first photodetector for recording a first signal representative of a first portion of the beam reflected by the deformable part, and at least one second photodetector arranged in line with the first photodetector in the direction of interest for recording a second signal representative of a second portion of the beam reflected by the deformable part and distinct from the first portion, the first and second signals depending on the deformation; wherein the device comprises: a receiver for receiving a first signal recorded by the first photodetector, and a second signal recorded by the second photodetector, a processor programmed for: calculating a cross-correlation of the first and second signals for obtaining an intercorrelated signal representative of a power spectral density or a root-mean-square deformation, estimating the stiffness of the deformable part depending on the intercorrelated signal. 9. The estimating device according to claim 8 , wherein: the first photodetector comprises at least one first photodiode and one second photodiode for recording first and second elementary signals, the sum of the first and second elementary signals being representative of the first portion of the reflected beam recorded by the first photodetector, the second photodetector comprises at least one third photodiode and one fourth photodiode for recording third and fourth elementary signals, the sum of the third and fourth elementary signals being representative of the second portion of the reflected beam recorded by the second photodetector, the processor being programmed for calculating a first resultant signal from the first and third elementary signals, and a second resultant signal from the second and fourth elementary signals, the step of calculating a cross-correlation consisting in intercorrelating the first and second resultant signals for obtaining the intercorrelated signal. 10. The estimating device according to claim 9 , whe