Measurement of the angle dependence of magnetostriction in pulsed magnetic fields using a piezoelectric strain gauge
We present a high resolution method for measuring magnetostriction in millisecond pulsed magnetic fields at cryogenic temperatures with a sensitivity of \(1.11\times10^{-11}/\sqrt{\rm Hz}\). The sample is bonded to a thin piezoelectric plate, such that when the sample's length changes, it strai...
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creator | Ding, Xiaxin Yi-Sheng, Chai Balakirev, Fedor Jaime, Marcelo Hee Taek Yi Cheong, Sang-Wook Sun, Young Zapf, Vivien |
description | We present a high resolution method for measuring magnetostriction in millisecond pulsed magnetic fields at cryogenic temperatures with a sensitivity of \(1.11\times10^{-11}/\sqrt{\rm Hz}\). The sample is bonded to a thin piezoelectric plate, such that when the sample's length changes, it strains the piezoelectric and induces a voltage change. This method is more sensitive than a fiber-Bragg grating method. It measures two axes simultaneously instead of one. The gauge is small and versatile, functioning in DC and millisecond pulsed magnetic fields. We demonstrate its use by measuring the magnetostriction of Ca\(_3\)Co\(_{1.03}\)Mn\(_{0.97}\)O\(_6\) single crystals in pulsed magnetic fields. By comparing our data to new and previously published results from a fiber-Bragg grating magnetostriction setup, we confirm that this method detects magnetostriction effects. We also demonstrate the small size and versatility of this technique by measuring angle dependence with respect to the applied magnetic field in a rotator probe in 65 T millisecond pulsed magnetic fields. |
doi_str_mv | 10.48550/arxiv.1807.07192 |
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The sample is bonded to a thin piezoelectric plate, such that when the sample's length changes, it strains the piezoelectric and induces a voltage change. This method is more sensitive than a fiber-Bragg grating method. It measures two axes simultaneously instead of one. The gauge is small and versatile, functioning in DC and millisecond pulsed magnetic fields. We demonstrate its use by measuring the magnetostriction of Ca\(_3\)Co\(_{1.03}\)Mn\(_{0.97}\)O\(_6\) single crystals in pulsed magnetic fields. By comparing our data to new and previously published results from a fiber-Bragg grating magnetostriction setup, we confirm that this method detects magnetostriction effects. We also demonstrate the small size and versatility of this technique by measuring angle dependence with respect to the applied magnetic field in a rotator probe in 65 T millisecond pulsed magnetic fields.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1807.07192</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Cryogenic temperature ; Dependence ; Magnetic fields ; Magnetism ; Magnetostriction ; Physics - Instrumentation and Detectors ; Physics - Materials Science ; Piezoelectricity ; Single crystals ; Strain gauges</subject><ispartof>arXiv.org, 2018-07</ispartof><rights>2018. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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The sample is bonded to a thin piezoelectric plate, such that when the sample's length changes, it strains the piezoelectric and induces a voltage change. This method is more sensitive than a fiber-Bragg grating method. It measures two axes simultaneously instead of one. The gauge is small and versatile, functioning in DC and millisecond pulsed magnetic fields. We demonstrate its use by measuring the magnetostriction of Ca\(_3\)Co\(_{1.03}\)Mn\(_{0.97}\)O\(_6\) single crystals in pulsed magnetic fields. By comparing our data to new and previously published results from a fiber-Bragg grating magnetostriction setup, we confirm that this method detects magnetostriction effects. We also demonstrate the small size and versatility of this technique by measuring angle dependence with respect to the applied magnetic field in a rotator probe in 65 T millisecond pulsed magnetic fields.</description><subject>Cryogenic temperature</subject><subject>Dependence</subject><subject>Magnetic fields</subject><subject>Magnetism</subject><subject>Magnetostriction</subject><subject>Physics - Instrumentation and Detectors</subject><subject>Physics - Materials Science</subject><subject>Piezoelectricity</subject><subject>Single crystals</subject><subject>Strain gauges</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GOX</sourceid><recordid>eNotkMtqwzAQRUWh0JDmA7qqoGun8kiy5GUJfQRSusneKNbIVXBkV7JL26-v81gN3LlnGA4hdzlbCi0lezTxx38vc83Ukqm8hCsyA87zTAuAG7JIac8Yg0KBlHxGhnc0aYx4wDDQztHhE6kJTYvUYo_BYqjxmB9ME3Do0hB9PfguUB9oP7YJ7WXla-o8tjbRMfnQUEN7j38dtlgfGTqRZmIaMzZ4S66dmdjFZc7J9uV5u3rLNh-v69XTJjMSVFYwoQqHDhmYnXCgsXCOOWdrFAZ2igNqrkVpUatallwqcKy0QuqCc-scn5P789mTkqqP_mDib3VUU53UTI2Hc6OP3deIaaj23RjD9FMFrASdM84V_wdbGWlG</recordid><startdate>20180719</startdate><enddate>20180719</enddate><creator>Ding, Xiaxin</creator><creator>Yi-Sheng, Chai</creator><creator>Balakirev, Fedor</creator><creator>Jaime, Marcelo</creator><creator>Hee Taek Yi</creator><creator>Cheong, Sang-Wook</creator><creator>Sun, Young</creator><creator>Zapf, Vivien</creator><general>Cornell University Library, arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20180719</creationdate><title>Measurement of the angle dependence of magnetostriction in pulsed magnetic fields using a piezoelectric strain gauge</title><author>Ding, Xiaxin ; 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The sample is bonded to a thin piezoelectric plate, such that when the sample's length changes, it strains the piezoelectric and induces a voltage change. This method is more sensitive than a fiber-Bragg grating method. It measures two axes simultaneously instead of one. The gauge is small and versatile, functioning in DC and millisecond pulsed magnetic fields. We demonstrate its use by measuring the magnetostriction of Ca\(_3\)Co\(_{1.03}\)Mn\(_{0.97}\)O\(_6\) single crystals in pulsed magnetic fields. By comparing our data to new and previously published results from a fiber-Bragg grating magnetostriction setup, we confirm that this method detects magnetostriction effects. We also demonstrate the small size and versatility of this technique by measuring angle dependence with respect to the applied magnetic field in a rotator probe in 65 T millisecond pulsed magnetic fields.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1807.07192</doi><oa>free_for_read</oa></addata></record> |
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subjects | Cryogenic temperature Dependence Magnetic fields Magnetism Magnetostriction Physics - Instrumentation and Detectors Physics - Materials Science Piezoelectricity Single crystals Strain gauges |
title | Measurement of the angle dependence of magnetostriction in pulsed magnetic fields using a piezoelectric strain gauge |
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