2009
DOI: 10.1103/physrevb.79.180201
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Multiple-well tunneling model for the magnetic-field effect in ultracold glasses

Abstract: Puzzling observations of both thermal and dielectric responses in multi-silicate glasses at low temperatures T to static magnetic fields B have been reported in the last decade and call for an extension of the standard two-level systems tunneling model. An explanation is proposed, capable of capturing at the same time the T -and B-dependence of the specific heat Cp and of the dielectric constant ǫ in these glasses. This theory points to the existence of anomalous multi-welled tunneling systems in the glasses -… Show more

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Cited by 8 publications
(25 citation statements)
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“…present Author in 2004, has been able to explain so far the magnetic effects in the heat capacity [1], in the real [38] and imaginary [39] parts of the dielectric constant and in the polarization echo amplitude [39] data reported to date for a variety of glasses at low temperatures. The ETM has also shed much new light into the composition-dependent anomalies [7,37].…”
Section: The Cellular Model For the Atomic Structure Of Glasses And Tmentioning
confidence: 81%
See 2 more Smart Citations
“…present Author in 2004, has been able to explain so far the magnetic effects in the heat capacity [1], in the real [38] and imaginary [39] parts of the dielectric constant and in the polarization echo amplitude [39] data reported to date for a variety of glasses at low temperatures. The ETM has also shed much new light into the composition-dependent anomalies [7,37].…”
Section: The Cellular Model For the Atomic Structure Of Glasses And Tmentioning
confidence: 81%
“…As it turns out, historically the magnetic effect on the dielectric properties of the multi-silicate glasses was the first to be discovered [9]. Only the present approach -at the time of writing -is able to explain the data, qualitatively [38] and then quantitatively [39]. We consider the contribution to the dielectric constant (ω) from the TWPs (or ATSs) that are sitting in the interstices between the RERs.…”
Section: The Magnetic Field Dependent Dielectric Constantmentioning
confidence: 94%
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“…This figure shows the physical origin of the magnetic effects: the quantum states being conserved in number, they are very rapidly shifted towards high values of the energy when a magnetic field, even very weak, is switched on. Our ETM has been able to explain the magnetic effects in the heat capacity [1], in the real [45] and imaginary [47] parts of the dielectric constant and in the polarization echo amplitude [47] measurements reported to date for various glasses at low temperatures, as well as the composition-dependent anomalies [19,46]. The new physics is provided by the magnetic-field dependent TS Figure 6: (colour online) The magnetic-sensitive part of the density of states (DOS) as a function of the A-B phase ϕ (proportional to the magnetic field B) and different energies (n AT S P * has been set to 1).…”
Section: The Quantum Mechanics Of the Three Welled Potentialmentioning
confidence: 90%
“…However, the magnetic effects discovered in the multisilicate glasses in recent times [1]- [3], and also some older data from mixed (SiO2)1−x(K2O)x and (SiO2)1−x(Na2O)x glasses [4], indicate the need for a suitable generalization of the 2LS TM. We show that, not only for the magnetic effects [3,5] but also for the mixed glasses in the absence of a field, the right extension of the 2LS TM is provided by the (anomalous) multilevel tunneling systems approach proposed by one of us. It appears that new 2LS develop via dilution near the hull of the SiO4-percolating clusters in the mixed glasses.…”
mentioning
confidence: 86%