(15) Electrons photo-emitted from a material in a UPS experiment can be viewed as free particles. A photon of wavelength 100 nm is absorbed by an electron that was in an orbital with an ionization energy IE of 8.41 eV. Use the relationship between kinetic energy and momentum (KE = p²/2m) and the quantum mechanical momentum operator p to solve for the exact unnormalized wavefunction of the electron that is photo-emitted from the orbital. Consider the +X direction only.

(15) Electrons photo-emitted from a material in a UPS experiment can be viewed as free particles. A photon of wavelength 100 nm is absorbed by an electron that was in an orbital with an ionization energy IE of 8.41 eV. Use the relationship between kinetic energy and momentum (KE = p²/2m) and the quantum mechanical momentum operator p to solve for the exact unnormalized wavefunction of the electron that is photo-emitted from the orbital. Consider the +X direction only.

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Question

(15) Electrons photo-emitted from a material in a UPS experiment can be viewed as free particles. A photon of
wavelength 100 nm is absorbed by an electron that was in an orbital with an ionization energy IE of 8.41 eV. Use the
relationship between kinetic energy and momentum (KE = p²/2m) and the quantum mechanical momentum operator
p to solve for the exact unnormalized wavefunction of the electron that is photo-emitted from the orbital. Consider
the +X direction only.

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