Accelerating Particles with Lasers - Knowledge for Knowledge's Sake

In summary, the conversation discussed the possibility of using lasers to accelerate particles and reach absolute zero. It was concluded that this is possible due to the conservation of momentum and has been used for propulsion in both macroscopic objects and individual particles. The term "inverse Free-Electron Laser" was also introduced to describe this process.
  • #1
aseylys
22
0
So I'm just asking a hypothetical question here, just looking for insight on something I'm thinking about really.

Scientists are able to reach almost absolute zero by slowing the movement of particles with lasers. So I was thinking, is the inverse possible?

If a laser was to strike incident to a particle would the force be able to accelerate the particle? If so would it only be a single particle or would it be multiple?

Again, just knowledge for knowledge's sake. Thanks guys!
 
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  • #2
Yes - light carries momentum so what it hits gains momentum by the usual conservation laws.
It works for macroscopic objects as well as individual particles, and has been used for propulsion.
 
  • #3
In this type of situation, in practice it's not helpful to think of the laser as a stream of photons but rather a classical EM wave. From this point of view, its known as an inverse Free-Electron Laser (in an FEL, energy is transferred from electrons to a laser, so inverse indicates the opposite direction of energy flow).
 

1. What is the purpose of accelerating particles with lasers?

The purpose of accelerating particles with lasers is to increase their energy and speed. This can be useful in a variety of scientific applications, such as studying the properties of matter, creating new materials, and developing more efficient energy sources.

2. How do lasers accelerate particles?

Lasers accelerate particles by using their intense energy to push and propel the particles forward. This can be achieved through various methods, such as using high-powered lasers to heat and expand a gas, or using lasers to create electric fields that accelerate charged particles.

3. What types of particles can be accelerated with lasers?

Lasers can accelerate a wide range of particles, including electrons, protons, and ions. The specific type of particle that can be accelerated depends on the properties of the laser and the target material.

4. What are the potential benefits of accelerating particles with lasers?

Accelerating particles with lasers can lead to significant advancements in various fields of science and technology. It can help us better understand the fundamental properties of matter, develop new materials and technologies, and potentially lead to breakthroughs in energy production.

5. Are there any potential risks or drawbacks to accelerating particles with lasers?

While there are potential benefits to accelerating particles with lasers, there are also some risks and drawbacks to consider. These can include potential safety hazards, such as high levels of radiation, as well as the high cost and complexity of developing and using advanced laser systems.

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