%0 Journal Article %1 nomura2021ultrasound %A Nomura, T %A Hauspurg, A %A Gorbunov, D. I. %A Miyata, A %A Schulze, E %A Zvyagin, S. A. %A Tsurkan, V %A Matsuda, Y. H. %A Kohama, Y %A Zherlitsyn, S %D 2021 %I American Institute of Physics %J Rev. Sci. Instrum. %K b %N 6 %P 063902 %R 10.1063/5.0045209 %T Ultrasound measurement technique for the single-turn-coil magnets %U https://doi.org/10.1063/5.0045209 %V 92 %X Ultrasound is a powerful means to study numerous phenomena of condensed-matter physics as acoustic waves couple strongly to structural, magnetic, orbital, and charge degrees of freedom. In this paper, we present such a technique combined with single-turn coils (STCs) that generate magnetic fields beyond 100 T with the typical pulse duration of 6 µs. As a benchmark of this technique, the ultrasound results for MnCr2S4, Cu6Si6O18·6H2O, and liquid oxygen are shown. The resolution for the relative sound-velocity change in the STC is estimated as Δv/v ∼ 10−3, which is sufficient to study various field-induced phase transitions and critical phenomena.

@article{nomura2021ultrasound, abstract = {Ultrasound is a powerful means to study numerous phenomena of condensed-matter physics as acoustic waves couple strongly to structural, magnetic, orbital, and charge degrees of freedom. In this paper, we present such a technique combined with single-turn coils (STCs) that generate magnetic fields beyond 100 T with the typical pulse duration of 6 µs. As a benchmark of this technique, the ultrasound results for MnCr2S4, Cu6[Si6O18]·6H2O, and liquid oxygen are shown. The resolution for the relative sound-velocity change in the STC is estimated as Δv/v ∼ 10−3, which is sufficient to study various field-induced phase transitions and critical phenomena. }, added-at = {2021-10-14T17:52:52.000+0200}, author = {Nomura, T and Hauspurg, A and Gorbunov, D. I. and Miyata, A and Schulze, E and Zvyagin, S. A. and Tsurkan, V and Matsuda, Y. H. and Kohama, Y and Zherlitsyn, S}, biburl = {https://www.bibsonomy.org/bibtex/2bc318a91e5ebf2e8329b7c42cfdf0693/ctqmat}, comment = {doi: 10.1063/5.0045209}, day = 07, description = {Ultrasound measurement technique for the single-turn-coil magnets: Review of Scientific Instruments: Vol 92, No 6}, doi = {10.1063/5.0045209}, interhash = {425c9338c0028eef264e8579acc6c46b}, intrahash = {bc318a91e5ebf2e8329b7c42cfdf0693}, issn = {00346748}, journal = {Rev. Sci. Instrum. }, keywords = {b}, month = jun, number = 6, pages = 063902, publisher = {American Institute of Physics}, timestamp = {2023-10-16T10:09:10.000+0200}, title = {Ultrasound measurement technique for the single-turn-coil magnets}, url = {https://doi.org/10.1063/5.0045209}, volume = 92, year = 2021 }