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*[http://web.physics.udel.edu/research/nanoscale-physics/graphene-nanoelectronics graphene-based nanoelectronics], | *[http://web.physics.udel.edu/research/nanoscale-physics/graphene-nanoelectronics graphene-based nanoelectronics], | ||
*[http://web.physics.udel.edu/research/nanoscale-physics/nano-bio-interface nanoelectronic biosensors], | *[http://web.physics.udel.edu/research/nanoscale-physics/nano-bio-interface nanoelectronic biosensors], | ||
*[http://web.physics.udel.edu/research/nanoscale-physics/nanoscale-thermoelectrics nanoscale | *[http://web.physics.udel.edu/research/nanoscale-physics/nanoscale-thermoelectrics nanoscale thermoelectrics], | ||
*[http://www.physics.udel.edu/~bnikolic/PDF/jj_review.pdf strongly correlated heterostructures]. | *[http://www.physics.udel.edu/~bnikolic/PDF/jj_review.pdf strongly correlated heterostructures]. | ||
We are also working on the development of new theoretical and computational formalisms, often involving massively parallel codes, which are required to study quantum many-body systems far from equilibrium. The principal tools that we employ daily include [[Fast Facts about NEGF|nonequilibrium Green function theory]], density functional theory, and dynamical mean field theory. | We are also working on the development of new theoretical and computational formalisms, often involving massively parallel codes, which are required to study quantum many-body systems far from equilibrium. The principal tools that we employ daily include [[Fast Facts about NEGF|nonequilibrium Green function theory]], density functional theory, and dynamical mean field theory. |
Revision as of 15:46, 8 May 2012
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