2002
DOI: 10.1103/physrevlett.89.289904
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Erratum: Onset of Glassy Dynamics in a Two-Dimensional Electron System in Silicon [Phys. Rev. Lett.88, 236401 (2002)]

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Cited by 51 publications
(167 citation statements)
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“…In strong contrast, a large exponent (1 − β) ≈ 0.9 is measured at 8 K. We conclude that charges fluctuations are strongly correlated at this moderately low temperature. This behavior is close to what was observed in 2D electronic systems far in the localized regime, at a much lowest temperature [26]. In summary, the low temperature phase of Ca 3 Co 4 O 9 exhibits glassy electronic transport properties and a Coulomb gap form of the dc conductivity, i.e., can be called a Coulomb Glass.…”
supporting
confidence: 85%
“…In strong contrast, a large exponent (1 − β) ≈ 0.9 is measured at 8 K. We conclude that charges fluctuations are strongly correlated at this moderately low temperature. This behavior is close to what was observed in 2D electronic systems far in the localized regime, at a much lowest temperature [26]. In summary, the low temperature phase of Ca 3 Co 4 O 9 exhibits glassy electronic transport properties and a Coulomb gap form of the dc conductivity, i.e., can be called a Coulomb Glass.…”
supporting
confidence: 85%
“…The anomalous resistance fluctuations observed in ultrathin granular aluminium films 14 and silicon MOSFETs close to the metal insulator transition 20,21 were also interpreted as indications for glassy behavior. Unfortunately, in these systems, it is difficult to disentangle effects due to intrinsically glassy behavior of interacting electrons from the strong response of the percolating network of hopping electrons to extrinsic slow degrees of freedom.…”
Section: Insulatormentioning
confidence: 99%
“…(20) The density of states at different stages of smearing is shown in Fig 3. Below, we will use the density of states (20) to calculate quantitatively the out of equilibrium conductivity Note that in assumption (i) it is implied that new carriers will occupy sites across the whole film. This is only justified if the film thickness is of the order of the screening length of the sample.…”
Section: Theory Of the Memory Dipmentioning
confidence: 99%
“…Our results portray a coherent physical picture, which reveals a quantum critical point at optimum doping (x = xopt), and the formation of an inhomogeneous glassy state at x < xopt. This mechanism is argued to arise as an intrinsic property of doped Mott insulators, and therefore to be largely independent of material quality and level of disorder.Many interesting materials ranging from magnetorestrictive manganite films [1] and field-effect transistors [2,3], to unconventional low dimensional superconductors [4], find themselves close to the metal-insulator transition. In this regime, competition between several distinct ground states [4] produces unusual behavior, displaying striking similarities in a number of different systems.…”
mentioning
confidence: 99%
“…It has been demonstrated in semiconductors [3], ruthanates [17], nickelates [18], other copper oxides [18,19], and manganites [20], where transport experiments indicate that at least some glassy features originate from slow charge dynamics. Further evidence supporting that glassiness in the charge and the spin channels emerge hand-in-hand was recently provided by measurements of the dielectric constant on La 2 Cu 1−x Li x O 4 and La 2−x Sr x N iO 4 [18].…”
mentioning
confidence: 99%