Device and method for measuring infiltration

What is claimed is: 1. An infiltration measuring device which measures an infiltration of an infiltrative material into a target object, comprising: a light source; an optical splitter configured to split a light beam from the light source into a reference light beam and a measuring light beam; a reference optical system provided in an optical path of the reference light beam; a measuring optical system provided in an optical path of the measuring light beam and configured to measure the target object; an optical combiner configured to combine an optical feedback from the target object with a light beam from the reference optical system; a detector configured to detect the light beam combined by the optical combiner and convert the combined light beam into a photoelectric conversion signal; an imager configured to image a cross section of the target object on the basis of the photoelectric conversion signal; a display configured to display a cross-sectional image formed by the imager; an applicator configured to apply the infiltrative material onto the target object; a storage configured to store the cross-sectional image of the target object in time series; and an estimator configured to, estimate a position of an interface of an infiltrated area of the infiltrative material applied on the target object on the basis of a temporal change in the cross-sectional image stored in the storage by, obtaining a differential image from a two-dimensional cross-sectional image of the target object in a depth direction and a direction orthogonal to the depth direction, and estimating the position of the interface of the infiltrated area by extracting an initial rising of an image intensity of the differential image in the depth direction. 2. The infiltration measuring device according to claim 1 , wherein the infiltrative material is a fluid. 3. The infiltration measuring device according to claim 2 , wherein the applicator is a fluid discharger to quantitatively discharge a fluid. 4. The infiltration measuring device according to claim 1 , wherein the applicator is provided on a side of a surface of the target object opposite to a surface on which the measuring light beam is incident. 5. The infiltration measuring device according to claim 1 , wherein the estimator is configured to estimate the position of the interface of the infiltrated area from cross-sectional images obtained at different times and calculate an infiltration speed of the infiltrative material into the target object in the depth direction by dividing an estimated position of the interface by the times. 6. The infiltration measuring device according to claim 1 , wherein the target object is a sheet-like medium or a printed material. 7. The infiltration measuring device according to claim 1 , wherein the target object includes a transparent scattering suppression material on a front surface. 8. The infiltration measuring device according to claim 1 , wherein the light source is configured to project a light beam in a wide band having a center wavelength in a near-infrared wavelength band. 9. An infiltration measuring method comprising: attaching an infiltrative material to a back surface of a target object while projecting a light beam onto a front surface of the target object; imaging a temporal change in a cross section of the target object using the projected light beam to obtain a cross-sectional image; storing, in a storage, the cross-sectional image of the target object in time series; and observing an infiltration of the infiltrative material into the target object by, estimating a position of an interface of an infiltrated area of the infiltrative material applied on the target object on the basis of a temporal change in the cross-sectional image stored in the storage, the estimating including, obtaining a differential image from a two-dimensional cross-sectional image of the target object in a depth direction and a direction orthogonal to the depth direction, and estimating the position of the interface of the infiltrated area by extracting an initial rising of an image intensity of the differential image in the depth direction.