Even though it might seem implausible, a laser pointer can actually strike the moon. However, once a conventional laser pointer reaches the moon, its power output is too weak for the human eye to see it. The laser beam also widens out as it moves through space, making detection much more challenging. A very strong laser with a power output of several watts would be required to be able to see a laser beam on the moon.
It is feasible to charge a solar panel using a laser, but the laser’s output power must be sufficient to produce a sizable amount of energy. This is due to the fact that solar panels need a specific quantity of energy to produce power. A strong laser might be able to charge a solar panel, whereas a weak laser would not be able to do so.
Gas lasers, solid-state lasers, and semiconductor lasers are the three basic categories of lasers. While solid-state lasers employ a solid substance, like a crystal, to produce the laser beam, gas lasers use a gas (like helium or neon) to do so. The beam is produced by semiconductor lasers using a semiconductor substance, such as gallium arsenide. Each kind of laser has distinctive qualities of its own and is applied in various ways. What Increases the Power of a Laser?
The power output, wavelength, and beam quality of a laser are only a few things that can increase its potency. Stronger beams can be produced by lasers with higher power output, while more focused beams can be created by lasers with shorter wavelengths. A higher beam quality laser will also be able to create a more reliable and stable beam, which can be crucial for some applications.