There will be no interference pattern , because the interference patterns at lest need to waves to interfere with each other , so when you blocked one of the slits you will get no interfere.

Do you know were can i get this circuit

Scale the Ls and Cs to the frequency band you need. Within the limits of the op amps, 1/10 the L and 1/10 the C should give you 10x the frequency.

Mode XY

The photons from the tungsten filament are not picked off, one by one. The photons released from the filament are spontaneously emitted, without any control. Every photon which is emitted travels through the double slits. There is no selection process for the photons. To increase the intensity the current is increased. To decrease the intensity the current is decreased.

@@GeraldZani its single photon double slit right? do you know how physicists can be sure one photon at a time travels in this kind of experiment compared to classic young's double slit? this is what i was talking about. yes it makes sense that random thermionic emission in tungsten releases photons but how could that result in single photon source?

@@GeoffryGifari Yes. You can tell by looking at the individual measurement events and the clock. The fraction of time between each individual measured photon event corresponds to the spatial distance between each photon. This can be adjusted by reducing the photon intensity.

​@@GeraldZaniI don't understand how that prevents photons from clumping if the emissions is random and spontaneous

@@jorgejimenez4325 Thx for your question. This arrangement does not prevent photons from clumping.

I think this cavity, type of laser generates all modes. and then, the mirror is just like a ''mode filter'' filtering the mode required and atenuates the others