There are many ways to configure such experiments.  This one uses a piece of 1mm thick filter glass to make fringes.  If the glass is not flat (a microscope slide) the fringes will be a measure of the glass surface.  Photographic filter glass is suitable for this purpose.

The fringes are curved because the light from point source is a spherical wavefront interfering with another spherical wavefront. These are the reflections of the point source from the front and rear surfaces of the flat window.
The fringe spacing gets finer with thicker glass.  Moving closer to the source adds more fringes.  The outer finges are much finer than the center finges.  Tilting the flat to a higher angle shows the finest  fringes.

One could use a 45 degree prism or wedge to intersect collimated beams at 22 degrees to produce about 500 lp/mm of non-curved lines. One could test lenses by shooting such fine patterns.  Or they can test film resolution. But testing film is a boring exercise unless one craves the answer (or needs it).  This is a simple way to do holography at home.  Kodak Tech Pan film can record a 20 degree off axis transmission hologram.  Higher resolution plates, like  Slavich plates will work even better.  One can produce reflection holograms using a pointer laser using these plates.

Home holography is a fun pastime.  New methods of processing and low cost lasers make this more attractive than ever.  Check our Richard's holography pages for further guidance: