Processing apparatus

What is claimed is: 1. A processing apparatus comprising: a light source configured to emit: partially coherent light having a coherence length that is equal to or more than inverse of a scattering coefficient of a light scattering body and shorter than half of inverse of a reduced scattering coefficient of the light scattering body; and weak coherent light having a coherence length smaller than that of the partially coherent light; an illumination optical system configured to irradiate an illumination area on a surface of the light scattering body, with the partially coherent light and the weak coherent light emitted from the light source; a detector configured to detect, in a detection area including the illumination area, a first signal of scattered and returned light corresponding to the partially coherent light and a second signal of scattered and returned light corresponding to the weak coherent light, from the light scattering body; and a processor comprising hardware, wherein the processor is configured to extract an interference component by excluding a noninterference component based on the second signal of the scattered and returned light corresponding to the weak coherent light from the first signal of the scattered and returned light corresponding to the partially coherent light. 2. A processing apparatus comprising: a light source configured to emit: partially coherent light having a predefined coherence length for a scattering body of the same kind as a light scattering body, the predefined coherence length being defined to generate an interference component within an area showing an intensity of 10% of a maximum intensity of scattered and returned light from a center point of a focused illumination area on the scattering body, among an intensity distribution of internally scattered and returned light that is formed on a surface of the scattering body when focused illumination is performed on the scattering body; and weak coherent light having a coherence length smaller than that of the partially coherent light; an illumination optical system configured to irradiate a two-dimensional illumination area on a surface of the light scattering body, with the partially coherent light and the weak coherent light emitted from the light source; a detector configured to two-dimensionally detect, in a two-dimensional detection area including the two-dimensional illumination area, a first signal of scattered and returned light corresponding to the partially coherent light and a second signal of scattered and returned light corresponding to the weak coherent light, from the light scattering body; and a processor comprising hardware, wherein the processor is configured to extract an interference component by excluding a noninterference component based on the second signal of the scattered and returned light corresponding to the weak coherent light from the first signal of the scattered and returned light corresponding to the partially coherent light. 3. A processing apparatus comprising: a light source configured to emit: partially coherent light having a coherence length that is equal to or more than inverse of a scattering coefficient of a light scattering body and shorter than half of inverse of a reduced scattering coefficient of the light scattering body, the coherence length being a predefined coherence length for a scattering body of the same kind as the light scattering body, the predefined coherence length being defined to generate an interference component within an area showing an intensity of 10% of a maximum intensity of scattered and returned light from a center point of a focused illumination area on the scattering body, among an intensity distribution of internally scattered and returned light that is formed on a surface of the scattering body when focused illumination is performed on the scattering body; and weak coherent light having a coherence length smaller than that of the partially coherent light; an illumination optical system configured to irradiate an illumination area on a surface of the light scattering body, with the partially coherent light and the weak coherent light emitted from the light source; a detector configured to detect, in a detection area including the illumination area, a first signal of scattered and returned light corresponding to the partially coherent light and a second signal of scattered and returned light corresponding to the weak coherent light, from the light scattering body; and a processor comprising hardware, wherein the processor is configured to extract an interference component by excluding a noninterference component based on the second signal of the scattered and returned light corresponding to the weak coherent light from the first signal of the scattered and returned light corresponding to the partially coherent light. 4. The processing apparatus according to claim 1 , wherein the processor is configured to extract the interference component by calculating a difference between an intensity of the scattered and returned light corresponding to the partially coherent light based on the first signal and an intensity of the scattered and returned light corresponding to the weak coherent light based on the second signal. 5. The processing apparatus according to claim 4 , wherein the processor is configured to: control the light source to emit the partially coherent light and the weak coherent light at different points in time, and calculate the difference between the intensity of the scattered and returned light detected by the detector at time of emitting the partially coherent light based on the first signal and the intensity of the scattered and returned light detected by the detector at time of emitting the weak coherent light based on the second signal. 6. The processing apparatus according to claim 5 , wherein the light source is configured to emit the partially coherent light and the weak coherent light such that a wavelength band of a full width at half maximum of one of the partially coherent light and the weak coherent light overlaps at least a center wavelength of the other of the partially coherent light and the weak coherent light. 7. The processing apparatus according to claim 5 , wherein the light source is configured to emit broadband light including at least a wavelength band of the partially coherent light and a wavelength band of the weak coherent light, wherein the processing apparatus comprises: a first filter configured to pass light having the wavelength band of the partially coherent light of the broadband light emitted by the light source; a second filter configured to pass light having the wavelength band of the weak coherent light of the broadband light emitted by the light source; and an actuator configured to move one of the first filter and the second filter onto an optical path of the light source, and wherein the processor is configured to control the actuator to move the first filter onto the optical path of the light source at the time of emitting the partially coherent light and move the second filter onto the optical path of the light source at the time of emitting the weak coherent light. 8. The processing apparatus according to claim 5 , wherein the light source comprises: a first light source configured to emit the partially coherent light; and a second light source configured to emit the weak coherent light, and wherein the processor is configured to control the first light source to emit the partially coherent light at the time of emitting the partially coherent light and control the second light source to emit the weak coherent light at the time of emitting the weak coherent light. 9. The processin