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{|width="100%" cellpadding="2" cellspacing="5" style="vertical-align:top;background-color:#FFF2BF;" | {|width="100%" cellpadding="2" cellspacing="5" style="vertical-align:top;background-color:#FFF2BF;" | ||
! <h2 style="margin:0;background-color:# | ! <h2 style="margin:0;background-color:#FFE680;font-size:120%;font-weight:bold;border:1px solid #BFAC60;text-align:left;color:#000;padding:0.2em 0.4em;">About QTTG</h2> | ||
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|style="color:#000"|Our group works on the frontier problems of transport of electron charge and spin in a variety of nanostructures. The [[Research|research topics]] that we are currently pursuing include [http://web.physics.udel.edu/research/nanoscale-physics/spintronics second-generation spintronics] operating with coherent spin states], [http://web.physics.udel.edu/research/nanoscale-physics/graphene-nanoelectronics graphene-based nanoelectronics], [http://web.physics.udel.edu/research/nanoscale-physics/nanoscale-thermoelectrics nanoscale thermoelectric devices], and 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 nonequilibrium Green function theory, density functional theory, and dynamical mean field theory. | |style="color:#000"|Our group works on the frontier problems of transport of electron charge and spin in a variety of nanostructures. The [[Research|research topics]] that we are currently pursuing include [http://web.physics.udel.edu/research/nanoscale-physics/spintronics second-generation spintronics] operating with coherent spin states], [http://web.physics.udel.edu/research/nanoscale-physics/graphene-nanoelectronics graphene-based nanoelectronics], [http://web.physics.udel.edu/research/nanoscale-physics/nanoscale-thermoelectrics nanoscale thermoelectric devices], and 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 nonequilibrium Green function theory, density functional theory, and dynamical mean field theory. |
Revision as of 20:51, 30 May 2011
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