Friday, June 21, 2013

1306.4972 (Trung V. Phan et al.)

Ballistic Heat Transfer and Energy Waves in an Electron System    [PDF]

Trung V. Phan, Justin C. W. Song, Leonid S. Levitov
Materials in which heat and entropy can be transmitted by directed ballistic pulses can trigger new approaches to energy transduction in solids. We predict that a ballistic energy transfer mode, with heat propagation governed by a wave equation rather than a diffusion equation, can be realized for a thermal electron-hole plasma in graphene. The new behavior originates from rapid exchange of energy and momentum in particle collisions leading to energy propagation as a collective weakly-damped oscillation. Due to the electronic nature of this mode, the estimated propagation velocity can be ~10^3 times larger than that for previously studied phonon mechanisms. The energy mode is uncharged at charge neutrality, but becomes coupled to charge dynamics upon doping. This coupling can be used for all-electric excitation and detection of energy transport.
View original: http://arxiv.org/abs/1306.4972

No comments:

Post a Comment