Laser in Outer Space: Will It Go On Forever?

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Shining a laser in a vacuum, such as outer space, theoretically allows the light to travel indefinitely without losing intensity, unlike in Earth's atmosphere where air particles cause attenuation. However, all lasers exhibit a divergence angle based on their wavelength and beam diameter, meaning even an ideal laser beam will spread out over distance. The Hubble Space Telescope (HST) can detect distant galaxies not because of an ideal laser effect, but due to its design features that enhance light collection and exposure capabilities. The light from these galaxies is diffuse and incoherent, which differs significantly from the coherent nature of laser light. Thus, while the initial assumption about lasers in a vacuum is partially correct, the practical implications and differences in light behavior must be considered.
wavingerwin
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ok, second question today:

if we shine a laser (ideal laser; no spreading out whatsoever of the ray) in Earth's atmosphere, at some distance the intensity of the laser will die out due to it hitting air particles.

what if we shine it in a vacuum? e.g outer space
My guess is that it will continue forever without dying out (as long as its path is constantly vacuum). This is why Hubble can detect galaxies far far away...

Is my argument correct?

Thank you!
 
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Of course it is, why wouldn't it be? Lasers are just light, after all.
 
Your assumptions are correct for an ideal laser. Unfortunately all lasers have a divergence angle that is dependent on both the wavelength and the inverse of the beam diameter at it's smallest spot. That is a blue laser with higher energy will diverge slower than a red one, etc.
 
Even an ideal laser beam diverges, unless "ideal" also means infinitely thick.

The reason that the HST can detect and resolve distant galaxies has nothing to do with an ideal laser. The light from distant galaxies is pressumed to be diffuse, basically isotropic, and incoherent. The ability of the HST, as opposed to your naked eye here on Earth, to dectect and resolve a distant light source, such as a galaxy, is due to the design of the HST (e.g. light collection area and exposure).
 

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