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  • There are plenty of objects that are good at blocking light and casting shadows; clouds,

  • trees, birds, tables, people, the moon.

  • But what about light itself?

  • Can photons cast shadows?

  • At first glance, the answer appears to be no.

  • Light - photons - are electromagnetic waves, and electromagnetic waves don’t directly

  • interact with themselves.

  • Other waves in nature - waves in shallow water, for example - can directly bounce off of or

  • at least influence each other . But not photons - they just pass right through.

  • That’s why sunlight doesn’t block cell phone signals, or human vision.

  • However, there are three indirect ways that photons CAN interact with other photons.

  • First, if a photon bumps into, say, an electron, and that electron bumps into another photon,

  • the photons will technically have redirected each other.

  • But this requires an electron to be in just the right place at the right time, so I don’t

  • think this really counts as a way for a photon by itself to make a shadow.

  • Second, just like how photons passing close to massive objects like the sun or a black

  • hole follow paths curved by gravity, a photon itself has energy and momentum and would technically

  • gravitationally deflect another passing photon.

  • But the gravity from a photon is ridiculously tiny - even the most energetic photon weve

  • ever measured had a smaller gravitational field than a strand of (virus) DNA . Which

  • won’t allow a photon to make a noticeable shadow.

  • But, third and finally, super high energy photons can spontaneously turn into particle-antiparticle

  • pairs (like an electron and positron), and then back again - and these particles can

  • deflect or absorb other photons, resulting in legit photon-on-photon scattering.

  • I saylegitbecause the key here is that you don’t need to luck out and have

  • an electron happen to be passing by - two solitary (if high-energy) photons can spontaneously

  • generate their own means of crashing into or bouncing off each other.

  • So what kind of shadow do we get?

  • Well, photons only bounce off each other exceedingly rarely Even very very carefully controlled

  • experiments with ridiculously high powered lasers have a hard time observing any interaction

  • between photons.

  • Which doesn’t sound promising for noticing a shadow.

  • But, there is one very real way that photons cast shadows.

  • Because space is so huge, super high energy photons traveling through it DO eventually

  • crash into one of the many (low energy) photons of the cosmic microwave background radiation

  • that are present pretty much everywhere in the universe.

  • And so, right now, you are literally being shadowed from ultra high energy gamma ray

  • photons by the photons left over from the big bang.

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There are plenty of objects that are good at blocking light and casting shadows; clouds,

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光子は影を作るのか? (Do Photons Cast Shadows?)

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    林宜悉 に公開 2021 年 01 月 14 日
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