Research in the Gweon Group
| Differences between revisions 13 and 17 (spanning 4 versions) | Back to page |
|
Size: 913
Comment:
|
Size: 921
Comment:
|
| Deletions are marked like this. | Additions are marked like this. |
| Line 3: | Line 3: |
| <<lia("NFL.png", clickable = False, align = left)>> <<fl(W)>>hat is the most central topic of condensed mateter physics? The answer is not be unique, as the condensed matter physics is such a huge field with so many different things that go on. | <<lia("NFL.png", clickable = False, align = left, scale = 1)>> <<fl(W)>>hat is the most central topic of condensed mateter physics? The answer is not unique, as the condensed matter physics is such a huge field with so many different things that go on. |
Electron spectrscopy on novel quantum materials
What is the most central topic of condensed mateter physics? The answer is not unique, as the condensed matter physics is such a huge field with so many different things that go on.
However, one exciting thing is that certain textbook ideas are severely challenged and many condensed matter researcher are very excited about establishing the “physics of tomorrow's textbook.”
Here, in the Gweon group, we study such ideas, the so-called “non-Fermi liquid physics” of high temperature supercondutors and quasi-one dimensional cuprates. Generally, these exotic non-Fermi liquid states can be viewed as one consequence of the interactions of many particles. We also study topological insulators, which are a new class of quantum materials.
Regardless of