Only the electrons with the right energy can pass through this set-up and are detected at the end.

Each electron, therefore, must be passing through both slits at the same time!

When an electron passes through both slits, it is not as two electrons.

The study shows, that electrons indeed pass to the neck and bud region of the nanobud system.

Only electrons at one of these well-defined resonant energy levels can pass through the well and both walls.

Such transistors offer intriguing possibilities because electrons can pass through the well at one of several energy levels.

If electrons can pass through a gate under any set of circumstances, there's no way to control their flow.

It further lets only those electrons pass which have the chosen initial energy.

This approach fails to account for the "rate" at which electrons can pass the barrier.

This makes the resulting pattern on the screen the same as if each individual electron had passed through both slits.