Interferometric setup for measurements of expansion of whisker-like samples

Golovnya, A. V.; Pokrovskiǐ, V. Ya.

doi:10.1063/1.1602937

Review of Scientific Instruments

2003

DOI: 10.1063/1.1602937

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Interferometric setup for measurements of expansion of whisker-like samples

A. V. Golovnya

V. Ya. Pokrovskiǐ

Abstract: Articles you may be interested inInfluence of temperature and excitation procedure on the athermal behavior of Nd 3 + -doped phosphate glass: Thermal lens, interferometric, and calorimetric measurements

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Cited by 2 publications

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“…To perform TE measurements, we have developed an interferometric technique for measurements of needle-like samples [19,20]. Fig.…”

mentioning

confidence: 99%

Peierls transition as spatially inhomogeneous gap suppression

2004

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We propose a model of the Peierls transition (PT) taking into account amplitude fluctuations of the charge-density waves and spontaneous thermally activated suppression of the Peierls gap, akin to the phase slip process. The activation results in the exponential growth of the normal phase with increasing temperature. The model fairly describes the behavior of resistance, thermal expansion, Young modulus and specific heat both below and above the PT temperature $T_P$. The PT appears to have a unique nature: it does not comprise $T_P$ as a parameter, and at the same time it has features of the 1st order transition. The possible basis for the model is activation of non-interacting amplitude solitons perturbing large volumes around them.Comment: 5 pages, 4 figure

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“…To perform TE measurements, we have developed an interferometric technique for measurements of needle-like samples [19,20]. Fig.…”

mentioning

confidence: 99%

Peierls transition as spatially inhomogeneous gap suppression

2004

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Chemical Expansion: Implications for Electrochemical Energy Storage and Conversion Devices

Bishop

Marrocchelli

Chatzichristodoulou

et al. 2014

Annu. Rev. Mater. Res.

208

180

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Many energy-related materials rely on the uptake and release of large quantities of ions, for example, Li+ in batteries, H+ in hydrogen storage materials, and O2− in solid-oxide fuel cell and related materials. These compositional changes often result in large volumetric dilation of the material, commonly referred to as chemical expansion. This article reviews the current knowledge of chemical expansion and aspires to facilitate and promote future research in this field by providing a taxonomy for its sources, along with recent atomistic insights of its origin, aided by recent computational modeling and an overview of factors impacting chemical expansion. We discuss the implications of chemical expansion for mechanical stability and functionality in the energy applications above, as well as in other oxide-based systems. The use of chemical expansion as a new means to probe other materials properties, as well as its contribution to recently investigated electromechanical coupling, is also highlighted.

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Interferometric setup for measurements of expansion of whisker-like samples

Abstract: Articles you may be interested inInfluence of temperature and excitation procedure on the athermal behavior of Nd 3 + -doped phosphate glass: Thermal lens, interferometric, and calorimetric measurements

Cited by 2 publications

References 18 publications

Peierls transition as spatially inhomogeneous gap suppression

Peierls transition as spatially inhomogeneous gap suppression

Chemical Expansion: Implications for Electrochemical Energy Storage and Conversion Devices

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