Neon energy levels in He-Ne laser

In summary, Neon is the lasing element in He-Ne laser and the lasing transition occurs from 3s to 2p. In the energy level diagram, there is a 1.15μm transition from 2s to 2p, which may seem contradictory since we know that 2s orbital has lower energy than 2p. However, this is due to the use of Paschen notation and the fact that in multi-electron atoms, electron configurations are approximations. The 2P level in the diagram corresponds to the outermost 3p electron, while the 2S state corresponds to the outermost 4s electron, which has a higher energy.
  • #1
Anoop MD
7
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Neon is the lasing element in He-Ne laser. The lasing transition(632.8nm) is from 3s to 2p. In the energy level diagram there is one 1.15μm transition from 2s to 2p. But we studied that 2s orbital have lower energy than 2p then how it is possible, in the energy diagram, 2s level have higher energy than 2p level and one transition of 2s to 2p?
http://en.wikipedia.org/wiki/Helium–neon_laser#mediaviewer/File:Hene-2.png
 
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  • #2
Anoop MD said:
Neon is the lasing element in He-Ne laser. The lasing transition(632.8nm) is from 3s to 2p. In the energy level diagram there is one 1.15μm transition from 2s to 2p. But we studied that 2s orbital have lower energy than 2p then how it is possible, in the energy diagram, 2s level have higher energy than 2p level and one transition of 2s to 2p?
http://en.wikipedia.org/wiki/Helium–neon_laser#mediaviewer/File:Hene-2.png

The notation in the diagram you reference is called Paschen notation. The labels are numberings of excited states, by energy. The "2S" does not refer to a "2s" hydrogen-like wave fundtion. Look at the reference given on the wikipage for a discussion of what nominal electron configurations correspond to the different Paschen notation labels.

http://archive.today/pwve

Remember too that in multi-electron atoms, the kind of electron configurations that you learn to write as a beginning student (e.g. 1s^2 for He) are all approximations to the truth.
 
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  • #3
Quantum Defect said:
The notation in the diagram you reference is called Paschen notation. The labels are numberings of excited states, by energy. The "2S" does not refer to a "2s" hydrogen-like wave fundtion. Look at the reference given on the wikipage for a discussion of what nominal electron configurations correspond to the different Paschen notation labels.

http://archive.today/pwve

Remember too that in multi-electron atoms, the kind of electron configurations that you learn to write as a beginning student (e.g. 1s^2 for He) are all approximations to the truth.
Thank you
 
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  • #4
Anoop MD said:
how it is possible, in the energy diagram, 2s level have higher energy than 2p level and one transition of 2s to 2p?
http://en.wikipedia.org/wiki/Helium–neon_laser#mediaviewer/File:Hene-2.png

Recall that Neon has more than 1 electron: the notation used in the level diagram is a not literally the same as for hydrogen:

http://archive.today/pwve

As you can see, the 2P level corresponds to the outermost 3p electron, while the 2S state corresponds to the outermost 4s electron, which has a higher energy than the 3p electron.
 
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  • #5
Thank you, now it is in phase with what I learned!
 

Related to Neon energy levels in He-Ne laser

What is a He-Ne laser?

A He-Ne laser is a type of gas laser that uses a mixture of helium (He) and neon (Ne) gases to produce an intense beam of light.

What are the energy levels in a He-Ne laser?

The energy levels in a He-Ne laser are determined by the arrangement of electrons in the neon atoms. These energy levels are responsible for the production of the laser's light.

How does the energy level of neon affect the laser's output?

The energy level of neon determines the wavelength of light produced by the laser. Different energy levels correspond to different wavelengths, which can be tuned to produce a specific color of light.

What is the significance of the neon energy levels in a He-Ne laser?

The neon energy levels are crucial for the functioning of a He-Ne laser. They determine the laser's output, stability, and efficiency, making it a reliable source of light for various applications.

How are the neon energy levels controlled in a He-Ne laser?

The neon energy levels can be controlled by adjusting the gas mixture, temperature, and voltage in the laser. This allows for precise tuning of the laser's output and ensures stable and consistent performance.

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