Kammerlingh Onnes
Walther Meissner
Fritz London
John Bardeen
Hannes Alfvén
Understanding the Meissner Effect in Superconductors
- Feynman paradox.
- In-class Midterm: Tuesday October 29, 11am-11:30am. Please try to be on time. Please bring a blue book.
- Guest lecturer 10/24: Daniel Arovas. Dan's lecture notes (pdf).
- Guest lecturer 10/17: Francisco Guinea
- Watch the 4 mins video at the beginning of this paper: https://www.mdpi.com/1099-4300/24/1/83
(don't read the paper)- Guest lecturer 10/3: Dirk van der Marel
- Estimate the energy involved in the Meissner effect shown in the pictures above
- Read the Meissner-Ochsenfeld paper in English here
- Slides and podcasts of lectures are in Canvas page
Topics that will be covered, in more detail
- Basic properties of superconductors, especially the Meissner effect
- What the conventional theory of superconductivity explains and doesn't explain about the Meissner effect
- The four questions about the Meissner effect that need to be answered
- Alfven's theorem and the Meissner effect
- Superconductors as giant atoms
- Why the Meissner effect is an unknown unknown; experiments that could settle these questions
- How the correct understanding of the Meissner effect tells us where to look for room temperature superconductors
- How room temperature superconductors will change the world
Lectures: Tu Th 11:00am - 12:20p, PODEM 1A22
Instructor: Jorge E. Hirsch, 5310 Mayer Hall, Ext. 4-3931, e-mail: [email protected] (include 139 in subject line)
In addition, we may have some distinguished guest lecturers presenting dissenting viewpoints
Office Hours: Mon 2-3pm, Fri 2-3pm, or by appointment, in person at 5310 MH or by zoom. For zoom click here.
- Review what you learned in earlier courses about Newton's laws, Faraday's law, Ampere's law, the Bohr atom and the first and second laws of thermodynamics.
- Other requirements to earn an A in the course will be discussed at the first lecture, thereafter be listed here