1999
DOI: 10.1103/physrevb.59.7656
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Resonant tunneling in a pulsed phonon field

Abstract: We theoretically investigate resonant tunneling through a single level assisted by short LO phonon pulses. The analysis is based on the recently developed nonequilibrium linked-cluster expansion ͓P. Král, Phys. Rev. B 56, 7293 ͑1997͔͒, extended in this work to transient situations. The nonequilibrium spectral function for the resonance displays the formation and decay of the phonon sidebands on ultrashort time scales. The timedependent tunneling current through the individual phonon satellites reflects this qu… Show more

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Cited by 9 publications
(5 citation statements)
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“…The other school is using simplified models which allows the analysis to be carried much further. Considerable progresses have been made in this respect for a localized level described by a Lundquist-like model 31,32,33 and for the so called "Coulomb island" 34,35 where H 0 in Eq. ( 24) is replaced by the Anderson Hamiltonian.…”
Section: Interacting Systemsmentioning
confidence: 99%
“…The other school is using simplified models which allows the analysis to be carried much further. Considerable progresses have been made in this respect for a localized level described by a Lundquist-like model 31,32,33 and for the so called "Coulomb island" 34,35 where H 0 in Eq. ( 24) is replaced by the Anderson Hamiltonian.…”
Section: Interacting Systemsmentioning
confidence: 99%
“…The integration over gives unity, and n B ()ϭ1/͓exp(ប/kT)Ϫ1͔ is the Bose-Einstein distribution. If the scattering parameter g ϭ(M 0 /ប Q ) 2 increases in value (gϾ0.1), 35 the electron levels become broadened and the optical transitions detuned. Then the dependence of ⌺ 0;cc,s Ͼ (n,) reflects the changing density of states within these quasiparticle levels ͓see the discussion after Eqs.…”
Section: A Approximations Of the Scattering Self-energymentioning
confidence: 99%
“…If the droplet does not catch the ion within several of its runs around the periodic system, the ion might heat and temporally evaporate the droplet. The transient oscillations observed in this ion catching closely resemble quasiparticle formation in condensed matter systems [29]. Finally, we check if boron-nitride nanotubes could be potentially used for the ion-droplet dragging.…”
mentioning
confidence: 69%