> only it also works in glass and cells, which is a crystalline structure, and it also works in space, which is something idk.

This conflates multiple different phenomena. Without bringing in technical jargon, which tends to confuse the issue, what is the ultimate question you're trying to answer?

> space, which is something

I think this is the root of your trouble.

The easiest answer to your original question, I believe, is simply "no".

A deeper answer would be to redirect you towards learning the nature of EM radiation. Folk here are wrestling with this because it's hard to ascertain adequately the root(s) of your misconceptions.

To me, at least, it seems you're stuck in something akin to where people were more than a century ago where they were convinced light had to be a wave in some sort of medium which they dubbed the ether. You seem to be imagining "EM radiation" as some sort of disturbance in space whereby the space disturbance can be collapsed, ruptured, cavitated (whatever word you want). But our current understanding of EM radiation doesn't work like that... at all.

To better understand destructive interference of electromagnetic waves, you are going to need to fall back to learn about waves, in general. After you get used to constructive and destructive interference in waves of water in a pond, then you should wrestle with the medium-less nature of waves in the electric and magnetic fields.

Cavitation is a phenomenon that occurs in masses of liquids (property of mass/matter). Liquids turn into gas at certain combinations of temperature and pressure, so at a certain temperature if pressure drops (e.g. due to fluid motion), vapor will form. Radiation (generically) is related to energy (it does propagate in the vacuum), thus it cannot "cavitate".

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