2015
DOI: 10.1103/physrevb.91.024109
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Lattice vacancies responsible for the linear dependence of the low-temperature heat capacity of insulating materials

Abstract: The linear dependence on temperature (γT) of the heat capacity at low temperatures (T < 15 K) is traditionally attributed to conduction electrons in metals; however, many insulators also exhibit a linear dependence that has been attributed to a variety of other physical properties. The property most commonly used to justify the presence of this linear dependence is lattice vacancies, but a correlation between these two properties has never been shown. We have devised a theory that justifies a linear heat capac… Show more

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Cited by 65 publications
(38 citation statements)
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“…In the above equation the T term represents lattice or oxygen vacancies, the T 3 and T 5 terms represent lattice vibrations, and the T 3=2 e Àd=T term possibly represents low frequency modes associated with amorphous materials [51][52][53]. The fitting parameters are given in T < 10 K and 0.01ÁC p;w for 10 K < T< 302 K).…”
Section: Results Of Heat-capacity Experimentsmentioning
confidence: 99%
“…In the above equation the T term represents lattice or oxygen vacancies, the T 3 and T 5 terms represent lattice vibrations, and the T 3=2 e Àd=T term possibly represents low frequency modes associated with amorphous materials [51][52][53]. The fitting parameters are given in T < 10 K and 0.01ÁC p;w for 10 K < T< 302 K).…”
Section: Results Of Heat-capacity Experimentsmentioning
confidence: 99%
“…vacancies) in insulating materials [26], and the B 3 , B 5 , B 7 , and B 9 terms represent the harmonic-lattice expression [27]. We note that these samples also exhibit a slight contribution from low-energy modes with a gap in the density of states, but these fits and their interpretation have been published elsewhere [28].…”
Section: Heat Capacity Curve Fittingmentioning
confidence: 97%
“…4(b), which shows only a broad peak around ∼15 K followed by a decay around 30 K. A fit of the magnetic heat capacity (C m ¼ γT þ βT 2 ) at a comparatively higher temperature range (3-9 K) roughly gives a strong T-linear contribution of γ ¼ 25.9 mJ=mol K 2 , unusual for insulating systems. Also, the finite γ value does not change with application of external magnetic field as high as 90 kOe, suggesting its origin to be gapless excitations from spinon density of the QSOL state or minor lattice oxygen vacancies, but not any paramagnetic impurity [27][28][29][30][31], as seen in other spin liquid systems too [32][33][34][35]. The magnetic entropy obtained by integrating C m =T with T is shown in Fig.…”
Section: -3mentioning
confidence: 99%