wyvern.phys.s.u-tokyo.ac.jp
Atsushi FUJIMORI
http://wyvern.phys.s.u-tokyo.ac.jp/welcome_en.html
Back to FUJIMORI GROUP. Professor, Graduate School of Science, University of Tokyo. Visiting Scientist, Energy and Environment Materials Science Division, Materials Sciences Research Center. Japan Atomic Energy Association. Photoemission spectroscopy of correlated materials, in particular, high-temperature superconductors, transition-metal oxides and magnetic semiconductors and their nano-structures. Academic and Professional Experience]. 1976 BS, Department of Physics, University of Tokyo. High-Energy A...
nanoscale.blogspot.com
nanoscale views: What are Weyl fermions? Do they really move charge 1000x faster?
http://nanoscale.blogspot.com/2015/07/what-are-weyl-fermions-will-they-really.html
A blog about condensed matter and nanoscale physics. Why should high energy and astro folks have all the fun? Monday, July 27, 2015. What are Weyl fermions? Do they really move charge 1000x faster? Published online in Science) with experimental work from Zahid Hasan. S group at Princeton has made a splash this week. In it, they argue that they see evidence in crystals of the compound TaAs for (quasi)particles that have the properties of so-called Weyl fermions. What does this mean? To measure, in 3d and ...
nanoscale.blogspot.com
nanoscale views: Nano "Grand Challenges" for the next decade
http://nanoscale.blogspot.com/2015/07/nano-grand-challenges-for-next-decade.html
A blog about condensed matter and nanoscale physics. Why should high energy and astro folks have all the fun? Sunday, July 12, 2015. Nano "Grand Challenges" for the next decade. Last month the White House Office of Science and Technology Policy. Issued a call for suggestions for "nanotechnology-inspired grand challenges". The term " grand challenge. Posted by Douglas Natelson. They already have a list and it is naive Drexler-like fantasy. Anon, yeah, as you can probably tell from the tone of my post, I t...
compcondmat.blogspot.com
CompCondMat: January 2010
http://compcondmat.blogspot.com/2010_01_01_archive.html
Saturday, January 2, 2010. Quasiparticle models allow for a solution of certain many-particle problems and may also provide descriptive pictures. Examples in solid state physics are. Composite Fermions with a mean field approximation related to the attached flux. Effective-mass Hamiltonians, where the energetic dispersion is reproduced. Kohn-Sham Hamiltonians, where an effective potential is adjusted such that a given density is obtained (self-consistently). Seidl, Perdew, Kurth, PRL 84. Really awesome i...
compcondmat.blogspot.com
CompCondMat: March 2011
http://compcondmat.blogspot.com/2011_03_01_archive.html
Sunday, March 27, 2011. March Meeting: where is computational physics going? At the focus sessions about computational physics at the APS March Meeting in Dallas. Challenges for the computational physics (or computational science in general) community have been identified. Probably the most important issue is to further develop education in computer related sciences and to make it standard in undergraduate curricula. How about a physical society-based journal? And their students might lack education on h...
compcondmat.blogspot.com
CompCondMat: March Meeting: where is computational physics going?
http://compcondmat.blogspot.com/2011/03/march-meeting-where-is-computational.html
Sunday, March 27, 2011. March Meeting: where is computational physics going? At the focus sessions about computational physics at the APS March Meeting in Dallas. Challenges for the computational physics (or computational science in general) community have been identified. Probably the most important issue is to further develop education in computer related sciences and to make it standard in undergraduate curricula. How about a physical society-based journal? And their students might lack education on h...
compcondmat.blogspot.com
CompCondMat: June 2009
http://compcondmat.blogspot.com/2009_06_01_archive.html
Monday, June 29, 2009. What’s computational physics about? Is it a subfield of theory? What about - uhmm - “numerical experiments” (if there’s something like that)? One could consider numerical simulation a third paradigm of science besides theory and experiment (see e.g. this link. 8221; of complex phenomena. What do you think “scientific computing” is about and do you think it is important at all to decide which field it belongs to? Thursday, June 25, 2009. Bandstructure code from 1972. 1972) , which ...
compcondmat.blogspot.com
CompCondMat: October 2009
http://compcondmat.blogspot.com/2009_10_01_archive.html
Saturday, October 3, 2009. In a quantum simulation, the evolution of a quantum many-body system is 'emulated' by mapping the Hamiltonian onto the one of a real system or by encoding in qubits [for a review see Buluta and Nori, Science 326. This will be particularly important if the exponentially growing computational complexity does not allow for a simulation on a classical computer. Chap 5 in R. Orus' PhD thesis [ link. Subscribe to: Posts (Atom). Bull; YouTube Channel and Contact. The $100 muon detector.
shahbazi.iut.ac.ir
Science News | Farhad Shahbazi
http://shahbazi.iut.ac.ir/Science%20News
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