User:Tkout2/Choose an Article

Article Selection
Please list articles that you're considering for your Wikipedia assignment below. Begin to critique these articles and find relevant sources.

Initial Options:

Channel-state duality

Choi–Jamiołkowski isomorphism

Coherent information - not much

Entanglement witness

Greenberger–Horne–Zeilinger state

Nielsen's theorem - no

Parity measurement

Spin model - no

Option 1

 * Article title
 * Parity measurement


 * Article Evaluation
 * This article is pretty bare, which means it has a lot of potential to add to; it is labeled as Stub class and Low-importance. It is also within the scope of WikiProject Physics. It has about 1 paragraph of information, and most of it is just an example. The topic is within the scope of the class, because we have just discussed applying operators like the Hadamard gate.
 * We could add to this about quantum error correction.


 * Sources
 * There are two sources, which are reliable because they are published papers, and they are properly in-line cited.

Option 2

 * Article title
 * Channel-state duality / Choi–Jamiołkowski isomorphism


 * Article Evaluation
 * These two terms are usually interchangeable, even though these are separate articles. Both of them are Start-class and Low-importance, and are very short, so they have potential to be expanded upon. Most of the first article is uncited, however, which could pose a problem; we would have to go and cite that information or replace it with cited information.


 * Sources
 * There are 3 sources for both, and all of them seem reliable as they are published papers in recognized journals.

Option 3

 * Article title
 * Entanglement witness


 * Article Evaluation
 * This article has slightly more information already on it than the previous articles, but not by much. One issue with this article is that it has references but no in-line citations. The intro needs expansion and there is no table of contents. There are just a couple of theorems stated and no examples. This article is rated C-class and Low-importance.
 * One cool thing to add would be modern applications of this phenomena such as this one where scientists characterized solid materials: https://phys.org/news/2021-11-key-witness-scientists-spooky-quantum.html . This will help lead using rare phases of matter like superconductors for data storage and other applications.


 * Sources
 * There are 6 sources and all look reliable because they are published in reputable journals, and 1 textbook is cited. Although again, none of the article being cited specifically is most likely an issue.

Option 4

 * Article title
 * Article Evaluation
 * Sources
 * Sources
 * Sources

Option 5

 * Article title
 * Article Evaluation
 * Sources
 * Sources
 * Sources