The concept of the wave function collapse in quantum mechanics is not falsified by the image of an electron acquired with a "quantum stroboscope." It seems that there might be a misunderstanding or confusion regarding the nature of the wave function collapse and the process of observation in quantum mechanics.
In quantum mechanics, particles such as electrons are described by wave functions, which are mathematical functions that represent the probability distribution of finding the particle in different states. The act of measurement or observation in quantum mechanics involves an interaction between the quantum system and the measuring apparatus. This interaction can cause the wave function of the system to "collapse" into one of the possible measurement outcomes.
The collapse of the wave function is a theoretical concept used to describe the sudden and irreversible change from a superposition of states to a single definite state as a result of measurement. However, it's important to note that the precise nature of the collapse and the underlying mechanisms are still the subject of debate and interpretation within the framework of quantum mechanics.
The term "quantum stroboscope" is not a commonly used term in the field of quantum mechanics, so it's unclear what specific technique or apparatus you are referring to. However, any experimental technique that allows us to observe or measure the position or properties of an electron will involve an interaction with the electron, which can potentially cause the wave function to collapse.
If you provide more details or clarify the specific concept or experiment you are referring to, I can try to provide a more specific response.