Contained is the data for manuscript 'Near single-photon imaging in the short-wave infrared using homodyne detection'. Included is the data used to produce the figures in the manuscript. This includes .txt files of the raw images collected, as well as .txt files of the processed intensity and phase images which were used to create the figures in the manuscript. Below is a description of the data contained in each file: Darks_13072022: Contains images of dark frames taken from the camera used in the experiment. These were used when doing a background subtraction of the filtered signal images in Fig.2 and Fig.4. flywings_13072022: Contains images of a fly wing, of which one set of frames (those numbered 005413) was used to create Fig.4. The folder 'Homodyne' contains .txt files of the raw camera image of the interference signal (i.e signal and reference beams interfering). 'Ref' contains raw camera images of the reference beam which were averaged and subtracted in the reconstruction process. 'Sig' contains raw images of the signal, with those ending with 'filtered' denoting the filtered signal images. Files prefaced 'Homodyneintensity' are .txt files of the reconstructed homodyne intensity images and those prefaced 'Homodynephase' are files of the reconstructed phase images. Homodyne_grid13072022: Contains all data used to create Fig. 2. and Fig. 3. Each folder corresponds to one of the light levels shown in the figure, i.e ND3_Ref0 is the high signal, high reference intensity light level (the numbers refer to the neutral density used, the first for the signal, the second for the reference so an increasing number means a decreased illumination intensity). For each folder: the folder 'Homodyne' contains .txt files of the raw camera image of the interference signal (i.e signal and reference beams interfering), 'Ref' contains raw camera images of the reference beam which were averaged and subtracted in the reconstruction process, 'Sig' contains raw images of the signal, with those ending with 'filtered' denoting the filtered signal images, files prefaced 'Homodyneintensity' are .txt files of the reconstructed homodyne intensity images and those prefaced 'Homodynephase' are files of the reconstructed phase images. Resolution Data: Contains the data used to create Fig. 5, of which one set of frames was used (those numbered 021971). he folder 'Homodyne' contains .txt files of the raw camera image of the interference signal (i.e signal and reference beams interfering). 'Ref' contains raw camera images of the reference beam which were averaged and subtracted in the reconstruction process. 'Sig' contains raw images of the signal, with those ending with 'filtered' denoting the filtered signal images. Files prefaced 'Homodyneintensity' are .txt files of the reconstructed homodyne intensity images and those prefaced 'Homodynephase' are files of the reconstructed phase images.