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'''Term Project:'''
'''Term Project:'''


A term paper, at least 2000 words on a certain topic is due on '''Wednesday, April 22'''. Following the completion of these papers, during the last week of classes, students will give 5-minute presentations, where they will share what they have learned on this topic with the rest of the class. Instead of presenting these paper in printed form, students will contribute the corresponding materials (including as many graphs, pictures, tables as possible) to the set of our course Wiki-pages. Each paper should be presented on a separate page, which should be linked to the other course Web pages, as appropriate.
A term paper, at least 2000 words on a certain topic is due on '''Thursday, April 14'''. Following the completion of these papers, during the last week of classes, students will give 20-minute presentations, where they will share what they have learned on this topic with the rest of the class. Instead of presenting these paper in printed form, students will contribute the corresponding materials (including as many graphs, pictures, tables as possible) to the set of our course Wiki-pages. Each paper should be presented on a separate page, which should be linked to the other course Web pages, as appropriate.


A list of suggested topic will be listed below. If you prefer to work on a topic that is not on the list, you must get prior approval. There is quite some flexibility in the scientific content and the depth into which you address the scientific issues. You are encouraged to discuss these with me in the process. The paper must be in your original words, with proper references if previous work is cited. The quality and the presentation of the term paper will contribute 10% to the final grade.
This year (2011) coincides with a centennial of the discovery of superconductivity by Kammerling Onnes in 1911. To celebrate this ground-braking discovery, we will pay special attention, in this class, to examining many fascinating facets of this phenomenon. So this time over, I ask that all term papers be devoted to a specific sunb-topic on superconductivity. These papers should be written in an introductory and elementary fashion, which could be used to introduce these important ideas and discoveries with the public at large. Those papers (i.e. Wiki pages) that are especially well written and accomplished will be incorporated in a new "Superconductivity at 100" Web site, that the Magnet Lab is developing, as a part of its outreach efforts - to bring the cutting edge science to the public at large.  


Sample topics:
A list of selected topics is listed below. If you prefer to work on a topic that is not on the list, you must get prior approval. There is quite some flexibility in the scientific content and the depth into which you address the scientific issues. You are encouraged to discuss these with me in the process. The paper must be in your original words, with proper references if previous work is cited. The quality and the presentation of the term paper will contribute 10% to the final grade.


# [[Collective phenomena in economy and society]] -- '''''Kim Wynne'''''
Project topics:
# [[Self-organized criticality and earthquakes]] -- '''Sean Kuvin'''
 
# Glassy freezing and traffic jams (''specifically: Metallic Glasses'') -- '''Shawn Havery'''
# [[1911: The year superconductivity was discovered]] (Joy)  
# [[Nucleation, droplets, and the physics of clouds]] -- '''Steven Dolly'''
# [[Uses of Superconductivity in Medical Science]] (Jose)
# [[Liquid Crystal]] -- '''Matt Hoza'''
# [[Superconducting Magnets in Particle Accelerators]] (Daniel)
# [[Phase transitions in biological systems]] --'''Nick DeGuzman'''
# [[Quest for High-Temperature Superconductors]] (Peter)
# [[Inflatory Universe and phase transitions of early matter]] -- '''Ron Frey'''
# [[Superconducting Applications in Quantum Computation]] (Caitlin)
# Group theory classification of crystalline symmetries
# [[Crystal growth]] -- '''Peter Gallagher'''
# Quasi-crystals
# [[Experimental methods for determining crystal structure]] -- '''Chris Cowdery'''
# Fermi surface probes using high magnetic fields
# Scanning tunneling microscopy (STM) of high Tc cuprates
# [[Strong electronic correlations and the Mott metal-insulator transition]] -- '''Arin Brown'''
# [[Unconventional superconductivity in nearly-magnetic metals]] -- '''Travis Robbins'''
# [[Geometrically Frustrated Materials]] -- '''Alison Pawlicki'''
# [[Super Liquids: A Look at the Phenomena of Superfluidity and Superheated Liquids]] -- '''Holly Brown'''
# [[Superfluidity of Neutron Stars | Solid State Physics of Neutron Stars]] -- '''Nicholas Fitzsimmons'''
Please add more topics, as appropriate. And put your name next to the topic you selected, in order to 'reserve it" for yourself.

Latest revision as of 20:34, 29 April 2011

Term Project:

A term paper, at least 2000 words on a certain topic is due on Thursday, April 14. Following the completion of these papers, during the last week of classes, students will give 20-minute presentations, where they will share what they have learned on this topic with the rest of the class. Instead of presenting these paper in printed form, students will contribute the corresponding materials (including as many graphs, pictures, tables as possible) to the set of our course Wiki-pages. Each paper should be presented on a separate page, which should be linked to the other course Web pages, as appropriate.

This year (2011) coincides with a centennial of the discovery of superconductivity by Kammerling Onnes in 1911. To celebrate this ground-braking discovery, we will pay special attention, in this class, to examining many fascinating facets of this phenomenon. So this time over, I ask that all term papers be devoted to a specific sunb-topic on superconductivity. These papers should be written in an introductory and elementary fashion, which could be used to introduce these important ideas and discoveries with the public at large. Those papers (i.e. Wiki pages) that are especially well written and accomplished will be incorporated in a new "Superconductivity at 100" Web site, that the Magnet Lab is developing, as a part of its outreach efforts - to bring the cutting edge science to the public at large.

A list of selected topics is listed below. If you prefer to work on a topic that is not on the list, you must get prior approval. There is quite some flexibility in the scientific content and the depth into which you address the scientific issues. You are encouraged to discuss these with me in the process. The paper must be in your original words, with proper references if previous work is cited. The quality and the presentation of the term paper will contribute 10% to the final grade.

Project topics:

  1. 1911: The year superconductivity was discovered (Joy)
  2. Uses of Superconductivity in Medical Science (Jose)
  3. Superconducting Magnets in Particle Accelerators (Daniel)
  4. Quest for High-Temperature Superconductors (Peter)
  5. Superconducting Applications in Quantum Computation (Caitlin)
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