Helium Nikki Meshkat Physics 138 Outline

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Helium

Nikki Meshkat
Physics 138

Outline

Interesting facts about Helium
Solving the Schrodinger Equation for He
Ground State
Excited States
Spin
Solve integrals for various cases

Fun Facts about Helium

Helium is named after the Greek god of the sun “Helios”
Discovered on the sun before it was discovered on Earth. Pierre Janssen, a French astronomer, noticed a yellow line in the sun’s spectrum while he was studying a solar eclipse in 1868. Then Sir Norman Lockyer, an English astronomer, realized that this yellow line could not be produced by any known element at the time. He named it Helium.
Helium is produced in stars by fusion of hydrogen. This process creates alpha particles, which is Helium without its electrons.

Fun Facts

Helium is the second most abundant element in the universe after Hydrogen
Thermal conductivity is higher than all gases except Hydrogen
Lowest boiling (4.22 K) and melting (0.95 K) points among all elements
Liquid Helium is an important cryogenic material, used to study superconductivity and to cool superconducting magnets.
DOE’s Jefferson Lab uses large amounts of liquid helium to operate its superconductive electron accelerator.

More Fun Facts

Helium created on earth by alpha decay of radioactive elements. The alpha particles trap electrons to become He, which is then trapped in natural gas.
There are no known compounds that contain Helium, although attempts are being made to produce Helium Diflouride.
When Helium is inhaled, it excites the higher harmonics of the vocal tract, since the speed of sound in He is 3 times that in air. One’s voice is a linear combination of the fundamental frequency plus higher harmonics, so Helium causes there to be more contribution from the higher harmonics to your voice and less contribution from the lower frequencies.

Physics of Helium

First solve an easier problem

Approximate as two Hydrogenic Ions and perform seperation of variables

What about the repulsion term?

How about the excited states?

Plug and chug away!

So what does this all mean?

Don’t forget spin!

Evaluation of Direct Integrals

Is this a good answer?

Recall that total energy without mutual repulsion term was -109 eV
Thus total energy is -109+34=-75eV
To go from singly ionized He to doubly ionized He takes 54.4 eV, thus first ionization energy is 75-54=21eV
Measured ionization energy is 24.6eV
Why wrong answer?

Variational Method

Notice that expectation value of perturbation 34eV is not small compared to binding energy 75eV, thus we aren’t completely justified in using perturbation theory.
Better approximation to wave function can be found by using variational method.

Evaluation of Direct Integrals

Evaluation of Exchange Integral

Similar trick with expansion of 1/r_12 term

Conclusion

Helium can be solved by first looking at Hydrogenic case and then adding perturbation term
This method does not give perfect results for the ground state, so the variational method works best in this case
Methods used for Helium can be extended to solving many-electron atoms

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Helium Nikki Meshkat Physics 138 Outline

Helium

Nikki Meshkat

Physics 138

Outline

Interesting facts about Helium

Solving the Schrodinger Equation for He

Ground State

Excited States

Spin

Solve integrals for various cases

Fun Facts about Helium

Helium is named after the Greek god of the sun “Helios”

Helium is produced in stars by fusion of hydrogen. This process creates alpha particles, which is Helium without its electrons.

Fun Facts

Helium is the second most abundant element in the universe after Hydrogen

Thermal conductivity is higher than all gases except Hydrogen

Lowest boiling (4.22 K) and melting (0.95 K) points among all elements

Liquid Helium is an important cryogenic material, used to study superconductivity and to cool superconducting magnets.

DOE’s Jefferson Lab uses large amounts of liquid helium to operate its superconductive electron accelerator.

More Fun Facts

Helium created on earth by alpha decay of radioactive elements. The alpha particles trap electrons to become He, which is then trapped in natural gas.

There are no known compounds that contain Helium, although attempts are being made to produce Helium Diflouride.

Physics of Helium

First solve an easier problem

Approximate as two Hydrogenic Ions and perform seperation of variables

What about the repulsion term?

How about the excited states?

Plug and chug away!

So what does this all mean?

Don’t forget spin!

Evaluation of Direct Integrals

Is this a good answer?

Recall that total energy without mutual repulsion term was -109 eV

Thus total energy is -109+34=-75eV

To go from singly ionized He to doubly ionized He takes 54.4 eV, thus first ionization energy is 75-54=21eV

Measured ionization energy is 24.6eV

Why wrong answer?

Variational Method

Notice that expectation value of perturbation 34eV is not small compared to binding energy 75eV, thus we aren’t completely justified in using perturbation theory.

Better approximation to wave function can be found by using variational method.

Evaluation of Direct Integrals

Evaluation of Exchange Integral

Similar trick with expansion of 1/r_12 term

Conclusion

Helium can be solved by first looking at Hydrogenic case and then adding perturbation term

This method does not give perfect results for the ground state, so the variational method works best in this case

Methods used for Helium can be extended to solving many-electron atoms