Can Lasers Used for Building Molecules Initiate Nuclear Fusion?

In summary, the use of laser beams to build molecules is wildly different from using lasers to achieve fusion. While the former involves bonding atoms and molecules together, the latter involves the fusion of atomic nuclei and requires much higher levels of energy. Despite being able to build molecules, the lasers used in this method are not powerful enough to achieve fusion reactions like deuterium-deuterium fusion.
  • #1
SupaVillain
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http://www.iflscience.com/space/molecules-have-been-built-using-laser-beam-first-time

Is there a way that fusion could be achieved with coherent control like this? If it can build molecules couldn't deuterium-deuterium be achieved?
 
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  • #2
I don't see how. Inertial confinement fusion (which is laser-driven) involves pouring huge amounts of energy into a small fuel pellet in a tiny fraction of a second. It is wildly different than using a laser to bond atoms and molecules together.
 
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  • #3
If the lasers can build molecules why can they bond deuterium together?
 
  • #4
The problem is one of numbers.
Getting a few molecules to fuse is not that much of a problem, but the difficulty escalates as the numbers increase, sort of a 'herding cats' phenomenon.
To get useful amounts of power, we need lots of molecules fusing, not just a few million.
 
  • #5
SupaVillain said:
If the lasers can build molecules why can they bond deuterium together?
Certainly one can create diatomic molecules of deuterium. That does not grant fusion.

In fusion, the nuclei must fuse by overcoming the Coulomb repulsion until the nuclear force takes over. The idea of heating a plasma is to allow the nuclei to approach each other that the nuclei can fuse, reform and release energy (transform binding energy into kinetic energy).
 
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  • #6
SupaVillain said:
If the lasers can build molecules why can they bond deuterium together?

I'm not sure you understand how fusion works. These lasers are building chemical bonds between atoms - which have eV energy scales. Fusion involves two atomic nuclei coming together to produce a new nucleus. It is a nuclear process, and you need nuclear energy scales - MeV.
 
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  • #7
SupaVillain said:
If the lasers can build molecules why can they bond deuterium together?
Because the energy required to overcome nuclear coulomb forces is on the order of a million times greater than that required to overcome molecular forces.
 

Related to Can Lasers Used for Building Molecules Initiate Nuclear Fusion?

1. What is "Coherent Control of Fusion"?

"Coherent Control of Fusion" refers to the use of lasers to manipulate and control the behavior of plasma in order to achieve stable nuclear fusion reactions. This involves precisely timing and shaping laser pulses to create an optimal environment for fusion to occur.

2. Why is Coherent Control of Fusion important?

Coherent Control of Fusion is important because it has the potential to significantly increase the efficiency and stability of fusion reactions. This could lead to a reliable and sustainable source of clean energy, as fusion produces no greenhouse gases or long-lived radioactive waste.

3. How does Coherent Control of Fusion work?

Coherent Control of Fusion works by using lasers to heat and compress plasma to extremely high temperatures and pressures, similar to those found in the core of the sun. This creates the conditions necessary for fusion reactions to occur, and the precise control of the lasers allows for a more stable and efficient process.

4. What are the challenges of Coherent Control of Fusion?

There are several challenges associated with Coherent Control of Fusion, including the technical difficulty of precisely controlling and timing the lasers, and the complex interactions between the lasers and the plasma. Additionally, there are still many unknowns about the behavior of plasma at extreme temperatures and pressures.

5. What are the potential applications of Coherent Control of Fusion?

The potential applications of Coherent Control of Fusion include the development of a clean and abundant source of energy, as well as advancements in fields such as materials science, astrophysics, and nuclear medicine. It could also potentially help to mitigate climate change by reducing reliance on fossil fuels.

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