Fluorescent light observation device and fluorescent light observation method

The invention claimed is: 1. A fluorescence observation device comprising: an excitation light source configured to supply excitation light for fluorescence observation of an observing object and capable of switching between ON/OFF of the excitation light supply; an interlaced imaging sensor configured to take an optical image from the observing object, and alternately output first field images and second field images in time series as obtained image data of the observing object; an image storage configured to store the first field images or the second field images output from the imaging sensor; and a difference image generator configured to generate a difference image obtained by a difference between one of the first field images and the second field images output from the imaging sensor, and the other of the first field images and the second field images stored in the image storage; a switching signal generator configured to generate a switching signal switching in synchronization with a first field image acquiring period and a second field image acquiring period based on a signal from the imaging sensor, wherein the excitation light source supplies the excitation light such that one of the first field image acquiring period and the second field image acquiring period by the imaging sensor is to be a period in which the excitation light supply is turned ON to acquire a fluorescence image, and the other is to be a period in which the excitation light supply is turned OFF to acquire a background image, and the difference image generator, as its generation mode, switches between (i) a first mode of, in a case where the fluorescence image is output from the imaging sensor, generating the difference image by subtracting the background image, which is acquired in advance of the fluorescence image to be stored in the image storage, from the fluorescence image, and (ii) a second mode of, in a case where the background image is output from the imaging sensor, generating the difference image by subtracting the background image from the fluorescence image, which is acquired in advance of the background image to be stored in the image storage, to apply the mode, and the difference image generator switches between the first mode and the second mode based on the switching signal to apply the mode. 2. A fluorescence observation device, comprising: an excitation light source configured to supply excitation light for fluorescence observation of an observing object and capable of switching between ON/OFF of the excitation light supply; an interlaced imaging sensor configured to take an optical image from the observing object, and alternately output first field images and second field images in time series as obtained image data of the observing object; an image storage configured to store the first field images or the second field images output from the imaging sensor; and a difference image generator configured to generate a difference image obtained by a difference between one of the first field images and the second field images output from the imaging sensor, and the other of the first field images and the second field images stored in the image storage; a filter configured to perform, for the intensities of respective pixels contained in the image which is the fluorescence image or the background image output from the image storage to the difference image generator, maximum filter processing of setting the maximum intensity at a plurality of pixels including pixels within a predetermined range in the vicinity of an object pixel in addition to the object pixel, as the intensity of the object pixel, or minimum filter processing of setting the minimum intensity at a plurality of pixels including pixels within a predetermined range in the vicinity of an object pixel in addition to the object pixel, as the intensity of the object pixel, wherein the excitation light source supplies the excitation light such that one of a first field image acquiring period and a second field image acquiring period by the imaging sensor is to be a period in which the excitation light supply is turned ON to acquire a fluorescence image, and the other is to be a period in which the excitation light supply is turned OFF to acquire a background image, and the difference image generator, as its generation mode, switches between (i) a first mode of, in a case where the fluorescence image is output from the imaging sensor, generating the difference image by subtracting the background image, which is acquired in advance of the fluorescence image to be stored in the image storage, from the fluorescence image, and (ii) a second mode of, in a case where the background image is output from the imaging sensor, generating the difference image by subtracting the background image from the fluorescence image, which is acquired in advance of the background image to be stored in the image storage, to apply the mode, and the filter switches between the maximum filter processing and the minimum filter processing in the first mode in which the background image is output from the image storage, and in the second mode in which the fluorescence image is output from the image storage, to apply the processing. 3. The fluorescence observation device according to claim 2 , comprising a switching signal generator configured to generate a switching signal switching in synchronization with the first field image acquiring period and the second field image acquiring period based on a signal from the imaging sensor, wherein the difference image generator switches between the first mode and the second mode based on the switching signal to apply the mode, and the filter switches between the maximum filter processing and the minimum filter processing in the first mode and the second mode based on the switching signal to apply the processing. 4. The fluorescence observation device according to claim 2 , comprising second image storage configured to store line image data of scanning lines containing the pixels within the predetermined range in the vicinity of the object pixel, with respect to line image data of a scanning line containing the object pixel. 5. The fluorescence observation device according to claim 2 , wherein, in the filter, as the maximum filter processing, with n being an integer of 2 or more, processing of setting the maximum intensity at n pixels including temporally-previous n−1 pixels in the vertical direction in addition to the object pixel, as the intensity of the object pixel is performed, and as the minimum filter processing, processing of setting the minimum intensity at n pixels including temporally-previous n−1 pixels in the vertical direction in addition to the object pixel, as the intensity of the object pixel is performed. 6. The fluorescence observation device according to claim 5 , wherein, in the filter, the number of pixels n used for the maximum filter processing and the minimum filter processing is set to an integer of 3 or more and 5 or less. 7. The fluorescence observation device according to claim 1 , comprising a distribution image generator configured to generate an intensity distribution image showing fluorescence intensity distribution based on the difference image output from the difference image generator. 8. The fluorescence observation device according to claim 7 , wherein the distribution image generator applies a single or a plurality of threshold values to the difference image to generate a binarized image or a colorized image serving as the intensity distribution image. 9. A fluorescence observation device, comprising: an excitation light source configured to supply excitation light for fluorescence observation of an observing object and be capable of sw