The Mesoscopic Relativity Workshop 2015: Difference between revisions

Revision as of 15:29, 25 November 2015

December 2--4, 2015
Institute of Physics, Chinese Academy of Science in Beijing, China

The remarkable research activities on graphene and related materials have drawn considerable attraction to relativistic effects on quantum transport in mesoscopic and nanoscale systems. The discovery of topological materials including topological insulators and Weyl semimetals have prompt even more attention to the physical effects of special relativity which are known to be very difficult to observe experimentally with elementary particles in high-energy physics. Nevertheless most of the efforts have been focused on the special relativity effects, especially, the effects concerning the linear dispersion of the bands. It should be possible and indeed demanded to observe the general relativity effects such as Unruh effect, which is closely related to the Hawking radiation around black holes.

Through this annual mini-workshop we are trying to make collaborative efforts to study various special and general relativity effects on quantum transport in mesoscopic systems. The relevant physical systems include topological insulators, Dirac/Weyl semimetals, and other materials whose dispersion are Lorentz invariant.

The mini-workshop is maintained by the three groups, respectively, lead by

Mahn-Soo Choi in Seoul,
Shun-Qing Shen in Hong Kong
Xin Wan in Hangzhou

Scope and Agenda

Topological Features in Dirac/Weyl Semimetals
Special Relativity Effects in Topological Materials
General Relativity Effects in Topological Insulators
How to Observe Relativistic Effects with Transport Experiments

Program

Wed Dec 2, 2015

09:30-10:00 Reception
10:00-11:00 Shun-Qing Shen (University of Hong Kong, China)
11:00-12:00 Xi Dai (Institute of Physics, China)
12:00-14:00 Lunch
14:00-16:00 Panel Discussion (chaired by Xi Dai): Lorentz Invariance and Its Consequences in Weyl/Dirac Semimetals

Wed Dec 3, 2015

10:00-11:00 Mahn-Soo Choi (Korea University, Korea)
11:00-12:00 Xin Wan (Zhejiang University, China)
12:00-14:00 Lunch
14:00-16:00 Panel Discussion (chaired by Shun-Qing Shen): General Relativity Effects in Topological Insulators

Wed Dec 4, 2015

10:00--12:00 Research Directions in the Future: Mutual Collaboration and Exchange Program
12:00--12:30 Closing

Special Thanks

For the present event, Xi Dai at the Institute of Physics, Chinese Academy of Science in Beijing China has kindly provided the venue and locally organized the workshop.

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 The remarkable research activities on graphene and related materials have drawn considerable attraction to relativistic effects on quantum transport in mesoscopic and nanoscale systems.  The discovery of topological materials including topological insulators and Weyl semimetals have prompt even more attention to the physical effects of special relativity which are known to be very difficult to observe experimentally with elementary particles in high-energy physics. Nevertheless most of the efforts have been focused on the special relativity effects, especially, the effects concerning the linear dispersion of the bands. It should be possible and indeed demanded to observe the general relativity effects such as Unruh effect, which is closely related to the Hawking radiation around black holes.