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Department of Physics & Astronomy

Bucknell University

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Lecture 19: Three-Dimensional Wavefunction and Semiconductors

April 7, 2026

Reading Assignment

• Read: Supplementary Reading Ch 7
• Skim: Section 7.5.1

Objectives

• (Continuing objective) Describe applications of the concepts of quantum mechanics to everyday “real-life” situations.
• Test solutions for the Hydrogen atom in the three-dimensional Schrödinger Equation.
• Write down and relate the possible values of the principal quantum number \(n\), the orbital quantum number \(l\), and the magnetic quantum number \(m_l\) for states of an electron in the hydrogen atom. Calculate the energy \(E_n\), angular momentum magnitude \(|\vec{L}|\), and \(z\)-component of angular momentum \(L_z\) using these quantum numbers.
• Relate the conductivity (or lack thereof) of a solid to the band structure of its energy levels. Use simple “\(k_BT\)” approximations and the Fermi-Dirac relation to determine how the conduction properties depends on the temperature.
• Explain doping and describe “n-type” and “p-type” semiconductors. Explain how p-n junctions produce diode and transistor behavior, concentrating in particular on the behavior of the depletion zone. Explain how light-emitting diodes work, and calculate the wavelength/frequency of LED emission, based on the band structure of the semiconductor.

Homework

• Wednesday's Assigned Problems: Problem X13; Supp CH 7: 2, 3, 4, 9, 11, 12, 13, 15

• Monday's Hand-In Problems from Lecture 19: Supp CH 7: 5, 10, 14, 16

  Note: this is only the first half of the hand-in set.

Lecture Materials

• Click here for the Lecture overheads. Answers: CT1 - 5; CT2 - 4; CT3 - 3; CT4 - 2
• Hydrogen Atom Viewer
• Band structure simulation
• Movie showing a forward-biased diode. NOTE: the ``DZ'' label should not be there, since the depletion zone no longer exists when forward biased.

Videos of example problems

To see the problem statement, click on the link below. To play the video example, click on the underlined words "Video Demonstration" near the top of the page with the problem statement.

• Example of working with n, l, m_l and m_s stuff. The first half of this example is really an explanation for the first two rows of the Periodic Table of the Elements. The second half is a question about how many electrons can fill the n = 5 energy state.
• Video example of light emitted from a transition.

Pre-Class Entertainment

• Tumbling Dice - The Rolling Stones
• Juke - Little Walter
• Feelin' Alright - Joe Cocker
• Pressure Drop - Toots and the Maytals
• Big Chief - Professor Longhair