A. Hilberer, G. Laurent, A. Lorin, A. Partier, J. Bobroff, F. Bouquet, C. Even, J. Fischbach, C. Marrache-Kikuchi, M. Monteverde, B. Pilette, Q. Quay
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引用次数: 1
摘要
单板微控制器目前的性能使其具有吸引力,不仅适用于基本应用,也适用于更复杂的项目,其中包括物理教学或研究。在这篇文章中,我们展示了如何使用Arduino板进行与温度相关的传输测量,从低温到室温或更高。我们关注这类实验的两个主要问题:样品温度的确定和电阻的测量。我们还详细介绍了两个由学生主导的实验:证明钆中的磁热效应和测量高临界温度超导体的电阻跃迁。接收日期:2018年7月7日,接收日期:2019年9月27日;编辑:A.Marti,M.Monteiro;审查人:R.Marotti,乌拉圭共和国大学Ingenieria学院财政研究所;DOI:http://dx.doi.org/10.4279/PIP.100007引用为:A Hilberer,G Laurent,A Lorin,A Partier,J Bobroff,F Bouquet,C Even,J M Fischbach,C A Marrache Kikuchi,M Monteverde,B Pilette,Q Quay,物理学论文10,100007(2018),根据知识共享署名许可4.0获得许可。
Temperature-dependent transport measurements with Arduino
The current performances of single-board microcontrollers render them attractive, not only for basic applications, but also for more elaborate projects, amongst which are physics teaching or research. In this article, we show how temperature-dependent transport measurements can be performed by using an Arduino board, from cryogenic temperatures up to room temperature or above. We focus on two of the main issues for this type of experiments: the determination of the sample temperature and the measurement of its resistance. We also detail two student-led experiments: evidencing the magnetocaloric effect in Gadolinium and measuring the resistive transition of a high critical temperature superconductor. Received: 7 July 2018, Accepted: 27 September 2018; Edited by: A. Marti, M. Monteiro; Reviewed by: R. Marotti, Instituto de Fisica, Facultad de Ingenieria - Universidad de la Republica, Uruguay; DOI: http://dx.doi.org/10.4279/PIP.100007 Cite as: A Hilberer, G Laurent, A Lorin, A Partier, J Bobroff, F Bouquet, C Even, J M Fischbach, C A Marrache Kikuchi, M Monteverde, B Pilette, Q Quay, Papers in Physics 10, 100007(2018) This paper, by A Hilberer, G Laurent, A Lorin, A Partier, J Bobroff, F Bouquet, C Even, J M Fischbach, C A Marrache Kikuchi, M Monteverde, B Pilette, Q Quay , is licensed under the Creative Commons Attribution License 4.0 .
期刊介绍:
Papers in Physics publishes original research in all areas of physics and its interface with other subjects. The scope includes, but is not limited to, physics of particles and fields, condensed matter, relativity and gravitation, nuclear physics, physics of fluids, biophysics, econophysics, chemical physics, statistical mechanics, soft condensed matter, materials science, mathematical physics and general physics. Contributions in the areas of foundations of physics, history of physics and physics education are not considered for publication. Articles published in Papers in Physics contain substantial new results and ideas that advance the state of physics in a non-trivial way. Articles are strictly reviewed by specialists prior to publication. Papers in Physics highlights outstanding articles published in the journal through the Editors'' choice section. Papers in Physics offers two distinct editorial treatments to articles from which authors can choose. In Traditional Review, manuscripts are submitted to anonymous reviewers seeking constructive criticism and editors make a decision on whether publication is appropriate. In Open Review, manuscripts are sent to reviewers. If the paper is considered original and technically sound, the article, the reviewer''s comments and the author''s reply are published alongside the names of all involved. This way, Papers in Physics promotes the open discussion of controversies among specialists that are of help to the reader and to the transparency of the editorial process. Moreover, our reviewers receive their due recognition by publishing a recorded citable report. Papers in Physics publishes Commentaries from the reviewer(s) if major disagreements remain after exchange with the authors or if a different insight proposed is considered valuable for the readers.
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