These are the file names for the fore and aft calibrated images:
ch2_tmc_nca_20200207T0122596445_d_img_m65
ch2_tmc_ncf_20200207T0122596445_d_img_m65
and these the raw:
ch2_tmc_nra_20200207T0122596445_d_img_m65
ch2_tmc_nrf_20200207T0122596445_d_img_m65
The imaging orbit was 2026, which is probably the easiest way to search.
It literally took me over 24 hours to get a couple of files - they were pretty reliable last month but it seems to have fallen apart in the last couple of weeks. To ease your pain I picked one of those files and added it to a dropbox here:
https://www.dropbox.com/s/rsvmc36aazlnmzq/ch2-a14.zip?dl=0You'll need software capable of opening .img files (the instructions on their website suggest a couple but they aren't that good -
https://pradan.issdc.gov.in/pradan/protected/downloadFile/tmc2/ch2_tmc2_data_products_user_guide.pdf). I used photoshop, for which you'll need to:
- Use "open as" then pick 'Photoshop raw' as the filetype.
- Select the .img file.
- Use the values in the accompanying xml file for height and width.
It'll look black when you open it, so go to Image, Adjustments, and HDR toning. Increase the 'Detail' option to maximum and fiddle with Exposure and Gamma until it looks OK.
The image is upside down to start with, rotating it and then cropping out all but the top quarter before you do the HDR toning will cut down on processing time.
The files covering the western part of Hadley Rille all contain 20191212T20043269568 in the filename, and those showing the area west of Taurus-Littrow 20191210T1903498259, which were done on orbits 1339 and 1315 respectively. They both show areas overflown by the ascending lunar module but not the landing site itself.
If you have QGIS, you can use the orthographic and dtm geotiffs to make cool 3D models. The catch there is that you need to modify the DTM vertical exaggeration by 0.00004 or so in order for the 3D plugin to make sense of them!
