Proposal for detection of non-Markovian decay via current noise

Chen, Yueh-Nan; Chen, Guang Yin

doi:10.1103/physrevb.77.035312

Cited by 4 publications

(7 citation statements)

References 46 publications

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“…We believe that the observation of fine triplet structure of electron fringes on top of B-doped nanocrystals provides insight into the possible nature of these geometrical selection rules. As it was shown in the earlier published experimental and theoretical studies of metallic nanostructures [1,2,[4][5][6]10], the magic sizes can develop due to quantum size-effect. According to this electronic growth mechanism, as long as the size of the nanostructure remains less than…”

mentioning

confidence: 74%

“…According to this concept, the electron de Broglie wavelength controls the geometry of nanostructures and establishes the preferred size. The hypothesis of electronic growth had been already confirmed by observation of ''magic'' heights in thin metal films [2,[4][5][6], and observation of magic-sized 2D molecular self-assembly on Cu(111) surface [10].…”

mentioning

confidence: 85%

“…In nanoscale systems, this interplay often manifests itself as a competition between quantum effects, which control the electronic properties of nanostructures [1][2][3][4][5][6], and classical effects of atomic diffusion, which determine their growth and morphology [7][8][9]. The existence of unusual quantum selection rules, the quantum ''electronic growth'', affecting the size distribution of metallic nanostructures has been discovered in recent years [1,2,[4][5][6]. According to this concept, the electron de Broglie wavelength controls the geometry of nanostructures and establishes the preferred size.…”

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confidence: 99%

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Magic-Sized Diamond Nanocrystals

Altfeder

Voevodin

et al. 2009

Phys. Rev. Lett.

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The 2D structural transformation of a heavily boron-doped diamond surface has been revealed using scanning tunneling microscopy (STM). We found that at boron densities above the metal-insulator transition the diamond surface is comprised of spatially ordered magic-sized nanocrystals. The development of quantized electron gas inside these nanocrystals is directly confirmed by STM observation of standing electron waves. The experimental comparison of metallic and insulating diamond reveals the existence of the Fermi-sea-induced quantum selection rules for the self-assembly of nanostructures.

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confidence: 74%

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confidence: 85%

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confidence: 99%

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Magic-Sized Diamond Nanocrystals

Altfeder

Voevodin

et al. 2009

Phys. Rev. Lett.

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“…The ongoing progress in measuring tiny fluctuations of charge currents through nanoscale conductors 1,2,3 has led to an increased theoretical interest in non-Markovian effects revealed in such experiments 4,5 . Of particular interest are the non-Markovian dynamics induced by the coupling to fermionic 6,7 and/or bosonic 8,9,10 environments and their influence on steady-state transport observables such as the cumulants of the stochastic charge transfer process 11 . Our present work focuses on such effects due to the coupling to electronic reservoirs.…”

Section: Introductionmentioning

confidence: 99%

Weak-coupling approximations in non-Markovian transport

et al. 2009

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We study the transport properties of the Fano-Anderson model with non-Markovian effects, which are introduced by making one tunneling rate energy-dependent. We show that the non-Markovian master equation may fail if these effects are strong. We evaluate the stationary current, the zero frequency current noise and the occupation dynamics of the resonant level by means of a quantum master equation approach within different approximation schemes and compare the results to the exact solution obtained by scattering theory and Green's functions.

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“…There have been some experimental efforts to explore QSE in In films [14][15][16][17][18][19]. Trilayer oscillations in the specific electric conductivity and the optical conductivity have been observed [14,17].…”

Section: Introductionmentioning

confidence: 99%

Electronic structure and trilayer growth of indium films on Si(111): a photoemission study

Liu¹,

Miller²,

Chiang³

2011

J. Phys.: Condens. Matter

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We report on the preferred trilayer growth of indium films on Si(111) studied by angle-resolved photoemission spectroscopy. By employing an interfactant and optimized annealing conditions, the kinetic constraint on the In atoms due to the substrate is greatly reduced and 'electronic growth'-where film morphology is controlled by the quantized electronic structure of the film-can be achieved at low coverage. Our photoemission spectra reveal that films of 4 ML (monolayers) and 7 ML thicknesses are energetically favored due to a lower surface energy, as confirmed by theoretical calculations. A detailed comparison of the photoemission spectra between In films grown on the In-√3 × √3/Si(111) surface and those on the Si(111) 7 × 7 surface shows that the √3 × √3 interfactant is a better template for growing In films at low coverage and effectively reduces the electronic coupling between the film and the substrate. In addition, the observed band structures of In films are in reasonable agreement with first-principles calculations and suggest that In films grown on the √3 × √3 interfactant might already be close to the bulk-like body-centered tetragonal structure at around 10 ML.

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Proposal for detection of non-Markovian decay via current noise

Cited by 4 publications

References 46 publications

Magic-Sized Diamond Nanocrystals

Magic-Sized Diamond Nanocrystals

Weak-coupling approximations in non-Markovian transport

Electronic structure and trilayer growth of indium films on Si(111): a photoemission study

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