Landauer’s formula is the standard theoretical tool to examine ballistic transport in nano- and meso-scale junctions, but it necessitates that any variation of the junction with time must be slow compared to characteristic times of the system, e.g., the relaxation time of local excitations. Transport through structurally dynamic junctions is,...
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electronic transport
Daniel Gruss1,2,3, Kirill A. Velizhanin4 & Michael Zwolak1
Landauer’s formula is the
Landauer’s formula is the standard theoretical tool to examine ballistic transport in nano- and meso-scale junctions, but it necessitates that any variation of the junction with time must be slow compared to characteristic times of the system, e.g., the relaxation time of local excitations. Transport through structurally dynamic junctions is,...
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’ crossover in electronic
transport – Supplemental Information
Daniel Gruss,1, 2, 3 Kirill A. Velizhanin,4
Kramers’ theory frames chemical reaction rates in solution as reactants overcoming a barrier in the presence of friction and noise. For weak coupling to the solution, the reaction rate is limited by the rate at which the solution can restore equilibrium after a subset of reactants have surmounted the barrier...
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/scientificreports
Crossover behavior of the thermal
conductance and Kramers’
transition rate theory
Kirill A
Kramers’ theory frames chemical reaction rates in solution as reactants overcoming a barrier in the presence of friction and noise. For weak coupling to the solution, the reaction rate is limited by the rate at which the solution can restore equilibrium after a subset of reactants have surmounted the barrier...
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conductance and
Kramers’ transition rate theory”
Kirill A. Velizhanin,1, ∗ Subin Sahu,2 Chih-Chun Chien,3
What is the nature of evolutionary divergence of the jaw skeleton within the genus Oncorhynchus? How can two associated bones evolve new shapes and still maintain functional integration? Here, we introduce and test a ‘concordance’ hypothesis, in which an extraordinary matching of the evolutionary shape changes of the dentary and...
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Resources 11: 353-357.
McPhee, M. V., Utter, F., Stanford, J. A., Kuzishchin, K. V., Savvaitova, K. A