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An efficient calibration method for SQUID measurement system using three orthogonal Helmholtz coils 被引量:1
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作者 李华 张树林 +2 位作者 张朝祥 孔祥燕 谢晓明 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第6期585-588,共4页
For a practical superconducting quantum interference device(SQUID) based measurement system,the Tesla/volt coefficient must be accurately calibrated.In this paper,we propose a highly efficient method of calibrating ... For a practical superconducting quantum interference device(SQUID) based measurement system,the Tesla/volt coefficient must be accurately calibrated.In this paper,we propose a highly efficient method of calibrating a SQUID magnetometer system using three orthogonal Helmholtz coils.The Tesla/volt coefficient is regarded as the magnitude of a vector pointing to the normal direction of the pickup coil.By applying magnetic fields through a three-dimensional Helmholtz coil,the Tesla/volt coefficient can be directly calculated from magnetometer responses to the three orthogonally applied magnetic fields.Calibration with alternating current(AC) field is normally used for better signal-to-noise ratio in noisy urban environments and the results are compared with the direct current(DC) calibration to avoid possible effects due to eddy current.In our experiment,a calibration relative error of about 6.89 × 10-4is obtained,and the error is mainly caused by the non-orthogonality of three axes of the Helmholtz coils.The method does not need precise alignment of the magnetometer inside the Helmholtz coil.It can be used for the multichannel magnetometer system calibration effectively and accurately. 展开更多
关键词 SQUID MAGNETOMETER Tesla/volt coefficient calibration three-dimensional helmholtz coil
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Design and implementation of square Helmholtz coil for uniform magnetic field generation 被引量:1
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作者 Wang Chao Yuan Bin +1 位作者 Mao Junfa Zhang Shuang 《Journal of Southeast University(English Edition)》 EI CAS 2019年第1期16-21,共6页
In order to calibrate electrical instruments and generate a constant magnetic field, a novel design method for square Helmholtz coil is proposed. According to the superposition principle in electromagnetics, the theor... In order to calibrate electrical instruments and generate a constant magnetic field, a novel design method for square Helmholtz coil is proposed. According to the superposition principle in electromagnetics, the theory of the square Helmholtz coil is established, and the design method is verified by Matlab calculation. Compared with conventional circular Helmholtz coil, the novel square one is with a larger uniform region. Simulation work is conducted in Maxwell, and the distribution of the magnetic field is obtained. The results demonstrate the validation of the applied calculation method of the proposed Helmholtz model. The space utilization rate η is used to make a comparison between the square and circular coils for the uniform region. The square Helmholtz coil is fabricated, the length of a single square coil is 1.5 m, and the amplitude of the magnetic field is controlled by the current. The GSM-19 T proton magnetometer is used to measure the amplitude of the magnetic field generated by the square Helmholtz coil. Experimental results indicate that a wide-range variable uniform magnetic field from 0 to 120 μT is generated in the center of Helmholtz coils. 展开更多
关键词 proton magnetometer square helmholtz coils space utilization rate uniform magnetic field
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Determining the Charge-to-Mass Ratio of the Electron
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作者 Joaquim Bocresion 《Journal of Applied Mathematics and Physics》 2023年第8期2309-2317,共9页
The aim of this lab was to determine an experimental value for the charge-to-mass ratio e/m<sub>e</sub> of the electron. In order to do this, an assembly consisting of Helmholtz coils and a helium-filled f... The aim of this lab was to determine an experimental value for the charge-to-mass ratio e/m<sub>e</sub> of the electron. In order to do this, an assembly consisting of Helmholtz coils and a helium-filled fine beam tube containing an electron gun was used. Electrons were accelerated from rest by the electron gun at a voltage of 201.3 V kept constant across trials. When the accelerated electrons collided with the helium atoms in the fine beam tube, the helium atoms entered an excited state and released energy as light. Since the Helmholtz coils put the electrons into centripetal motion, this resulted in a circular beam of light, the radius of which was measured by taking a picture and using photo analysis. This procedure was used to test currents through the Helmholtz coils ranging from 1.3 A to 1.7 A in increments of 0.1 A. Using a linearization of these data, the experimental value for the charge-to-mass ratio of the electron was found to be 1.850 × 10<sup>11</sup> C/kg, bounded between 1.440 × 10<sup>11</sup> C/kg and 2.465 × 10<sup>11</sup> C/kg. This range of values includes the accepted value of 1.759 × 10<sup>11</sup> C/kg, and yields a percent error of 5.17%. The rather low percent error is a testament to the accuracy of this procedure. During this experiment, the orientation of the ambient magnetic field due to the Earth at the center of the apparatus was not considered. In the future, it would be worthwhile to repeat this procedure, taking care to position the Helmholtz coils in such a way to negate the effects of the Earth’s magnetic field on the centripetal motion of electrons. 展开更多
关键词 helmholtz coils Charge-to-Mass Ratio ELECTRON Magnetic Field
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Characterization of Deciliation-Regeneration Process of Tetrahymena Pyriformis for Cellular Robot Fabrication
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作者 Dal Hyung Kim Sean E. Brigandi +2 位作者 Paul Kim Doyoung Byun Min Jun Kim 《Journal of Bionic Engineering》 SCIE EI CSCD 2011年第3期273-279,共7页
magnetotactic Tetrahymena pyriformis GL (T. pyriformis) cells were created by the internalization of iron oxide nano particles and became controllable with a time-varying external magnetic field. Thus, T. pyriformis... magnetotactic Tetrahymena pyriformis GL (T. pyriformis) cells were created by the internalization of iron oxide nano particles and became controllable with a time-varying external magnetic field. Thus, T. pyriformis can be utilized as a cellular robot to conduct micro-scale tasks such as transportation and manipulation. To complete these tasks, loading inorganic or organic materials onto the cell body is essential, but functionalization of the cell membrane is obstructed by their motile organelles, cilia. Dibucaine HC1, a local anesthetic, removes the cilia from the cell body, and the functional group would be absorbed more efficiently during cilia regeneration. In this paper, we characterize the recovery of artificial magnetotactic T. pyriformis after the deciliation process to optimize a cellular robot fabrication process. After sufficient time to recover, the motility rate and the average velocity of the deciliated cells were six and ten percent lower than that of non-deciliated cells, respectively. We showed that the motile cells after recovery can still be controlled using magnetotaxis, making T. pyrfformis a good candidate to be used as a celIular robot. 展开更多
关键词 Tetrahymena pyriformis deciliation cellular robot helmholtz coil magnetic field magnetotaxis
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Design of Braunbeck Coil for Nuclear Magnetic Resonance Gyro Magnetic Field Excitation 被引量:1
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作者 WANG Pei LIU Hua +3 位作者 CHENG Xiang ZHAO Wanliang LI Shaoliang CHENG Yuxiang 《Journal of Shanghai Jiaotong university(Science)》 EI 2018年第6期740-745,共6页
For generating a uniform and steady magnetic field, Helmholtz coil is extensively used in nuclear magnetic resonance gyro(NMRG). Unfortunately, the volume of Helmholtz coil makes it inconvenient to miniaturize NMRG. T... For generating a uniform and steady magnetic field, Helmholtz coil is extensively used in nuclear magnetic resonance gyro(NMRG). Unfortunately, the volume of Helmholtz coil makes it inconvenient to miniaturize NMRG. This study introduces Braunbeck coil that can be used in magnetic field excitation system. Braunbeck coil can produce homogeneous magnetic field within a limit space, and occupy a small volume. In addition, this study presents mathematical expressions that can be used to calculate the area of uniform magnetic field. Experimental test verifies the effectiveness of the proposed design, and the results accord closely with the actual simulation. 展开更多
关键词 Braunbeck coil finite element simulation helmholtz coil magnetic field excitation magnetic uniform area nuclear magnetic resonance gyro(NMRG)
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Single-blockmeasurement for the cryogenic permanent magnet undulator sorting
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作者 Ling-Ling Gong Xiao-Yu Li +6 位作者 Yu-Hui Li Ya-Jun Sun Hui-Hua Lu Ke-yun Gong Qing Guo·Shu-Chen Sun Zhi-qiang Li Wan Chen 《Radiation Detection Technology and Methods》 CSCD 2021年第1期83-89,共7页
Purpose The magnet sorting is a standard step in the undulator fabrication procedure.The shortest undulators period used in the High Energy Photon Source(HEPS)is only 12 mm.To the short period undulator,the sorting ma... Purpose The magnet sorting is a standard step in the undulator fabrication procedure.The shortest undulators period used in the High Energy Photon Source(HEPS)is only 12 mm.To the short period undulator,the sorting may be more important than the long-period undulator.Normally,the Helmholtz measurement is used as the input for the work.It is the averaged orthogonal magnetization of each block.In order to investigate whether the Helmholtz coil measurement is enough for the sorting,a careful study has been made.Method Firstly,a magnetic camera was used to scan the 3D surface field of a magnet.Afterward,its field integral ismeasured by the stretched wire.In the measurement,the magnetwas placed at different statuses.The results were checked to seewhether they are consistent with expected features supposing a homogeneous magnetized block.Finally,the results measured by the Helmholtz coil and the stretched wire were compared.Results The surface field scan demonstrates that the field over a magnet block is inhomogeneous.Moreover,the field integral measurement by the stretched wire also shows big difference when the different magnet sides toward thewire.The comparison between the stretched wire and the Helmholtz coil measurement shows no correlation.Conclusion The study presented in this paper reveals that the homogeneity of the magnetization is imperfect.Therefore,the Helmholtz coil data are insufficient to the short-period undulators sorting. 展开更多
关键词 Magnet sorting UNDULATOR Stretched wire helmholtz coil
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