DISCLAIMER: This article is being kept online for historical purposes. Though accurate at last review, it is no longer being updated. The page may contain broken links or outdated information.
Quantum electronic properties of matter
Rotenberg, Eli Advanced Light Source, Lawrence Berkeley National Laboratory, Berkeley, California.
- Electronic self-energy
- Electrons in condensed matter
- ARPES measurements of graphene's self-energy
- Related Primary Literature
- Additional Reading
The quantum-mechanical description of matter aims to explain how diverse properties of materials arise from the mutual interactions of many atomic nuclei and their associated electrons. While a more or less complete theory of ordinary electrical conduction in metals was developed in the early part of the twentieth century, newer phenomena such as high-temperature superconductivity and ballistic conduction in carbon-based electronic devices challenge our basic understanding of condensed-matter physics. It is an important goal to understand the subtle interactions leading to these phenomena, and if possible to control them. Can these inherently quantum-mechanical behaviors be extended to room temperature? If so, remarkable applications could be envisioned.
The content above is only an excerpt.
for your institution. Subscribe
To learn more about subscribing to AccessScience, or to request a no-risk trial of this award-winning scientific reference for your institution, fill in your information and a member of our Sales Team will contact you as soon as possible.
to your librarian. Recommend
Let your librarian know about the award-winning gateway to the most trustworthy and accurate scientific information.
AccessScience provides the most accurate and trustworthy scientific information available.
Recognized as an award-winning gateway to scientific knowledge, AccessScience is an amazing online resource that contains high-quality reference material written specifically for students. Contributors include more than 10,000 highly qualified scientists and 45 Nobel Prize winners.
MORE THAN 8700 articles covering all major scientific disciplines and encompassing the McGraw-Hill Encyclopedia of Science & Technology and McGraw-Hill Yearbook of Science & Technology
115,000-PLUS definitions from the McGraw-Hill Dictionary of Scientific and Technical Terms
3000 biographies of notable scientific figures
MORE THAN 19,000 downloadable images and animations illustrating key topics
ENGAGING VIDEOS highlighting the life and work of award-winning scientists
SUGGESTIONS FOR FURTHER STUDY and additional readings to guide students to deeper understanding and research
LINKS TO CITABLE LITERATURE help students expand their knowledge using primary sources of information