VSM
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Product Description
A vibrating sample magnetometer(VSM) is an instrument that is used to measure magnetic properties. It is also called a Foner magnetometer or M-H Curve Hysteresis Graph Test System.
VSM is composed of a master device, an electromagnet, a vibrator, a computer. The electromagnet source, the vibrator source, the magnetic moment measuring unit and the magnetic field measuring unit which all controlled by MPU (AT89C52) constitute the instrument. The instrument communicates to the computer with the standard RS-232-C serial interface, then enhanced systematicness of the instrument and operability of the hardware. Operating functions of the special complement software is powerful and software is used conveniently.
Learn More About Our Products
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Three-Axis Equal-Diameter Coil
The Three-Axis Equal-Diameter Coil, which is a type of three-axis Helmholtz coil exclusively developed by our company, features the nominal diameter coil, the same number of winding turns, and the same specification of wires per axis.<br/> This winding construction allows the Three-Axis Equal-Diameter Coil to have the same resistance, inductance, homogeneity, and B/I coefficient per axis; The coil per axis is fixed to each other in the embedded form, of which this mechanical structure makes the coil to feature a small size and the greater accessibility to the working gap; the whole former is made of non-magnetic PMMA material, which is applied for the study of low and weak magnetic field, and which is very suitable for the shielding room and the magnetic shield. The highest magnetic field of a three-axis equal diameter coil can be designed to be from 0 to 5 Gs.
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The static geomagnetic active shielding system
The static magnetic field active shielding system can offset the magnetic field fluctuations of the geomagnetic field in real time, thereby generating a 10nT zero magnetic environment in the geomagnetic environment. For example, the gradient magnetic field of 1nT or 0.1nT can be generated in the shielding room or shielding cylinder, the system can also generate any set magnetic field in three-dimensional components for scientific experiments and simulation of geomagnetic changes.
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Single-Axis Helmholtz Coil
The Helmholtz coil is a device composed of two sets of identical circular coils placed parallel to the same axis and run current in the same direction to generate a uniform magnetic field. Helmholtz coils can be customized by through adjusting the coil diameter, required magnetic field, working time, structural requirements, and dissipation requirements (air cooling or water cooling).
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SBV Series Eectromagnet
The SBV electromagnet is a double-yoke(H-Frame) , variable air gap magnetic field generation equipment with one pole being adjustable. From the excitation of the excitating power source, the field vector forms a closed loop, and a high uniform magnetic field can be generated between two poles, and the field direction is along the axial direction of pole caps. All SBV electromagnets are equipped with a pair of standard replaceable pole caps made of purity iron, which can be replaced to suit to individual experiment requirements. The pure-iron structure is suitable for coils heat dissipation, and the option of cooling water system is also available for extend the operating time.
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Halbach permanent magnet
Halbach permanent magnet is a magnetic ring made from a specially arranged array of permanent magnets, capable of generating a strong one-sided magnetic field inside or outside of the ring, while there's almost no magnetic field on the other side. This design significantly improves magnetic field utilization efficiency and is widely used in high-performance magnetic devices such as particle accelerators, magnetic resonance imaging (MRI), and high-precision magnetic measurement equipment.
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Variable-Magnetic-Field Permanent Magnet
Variable-Magnetic-Field Permanent Magnet is an innovative magnetic device that changes the magnetic field strength by adjusting the air gap, and which is widely used in various experiments and industrial applications that require variable magnetic fields. By combining precision mechanical design with high-performance rare earth materials, adjustable permanent magnets can flexibly adjust their magnetic field strength without the need for excitation current, providing multiple magnetic field environments to meet different application needs.
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VSM
A vibrating sample magnetometer(VSM) is an instrument that is used to measure magnetic properties. It is also called a Foner magnetometer or M-H Curve Hysteresis Graph Test System. <br/> VSM is composed of a master device, an electromagnet, a vibrator, a
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Magnetic-Moment-Free Coil
The Magnetic-Moment-Free Coil is composed of several pairs of coils, which are installed in a certain geometric structure, and of which the certain number of coil’s turns and a certain current direction make the magnetic field outside the Magnetic-Moment-Free Coil attenuate rapidly and make the magnetic moment of the Magnetic-Moment-Free Coil be zero. One of outstanding advantages of the moment-free coil is that it does not produce magnetic interference to the environment outside a certain distance from the Magnetic-Moment-Free coil during operation, which means that it is very significant for the simultaneous operation of multiple systems; In addition, the moment-free coil does not magnetize the adjacent magnetic substance, therefore, it does not bring extra errors to the moment-free coil in this respect.
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High Homogeneity coil
High Homogeneity coil, which is composed of multi-ring coils arranged along the axial direction, includes the common coils such as Barker Coil, Braunbek Coil, Maxwell Coil, Rubens Coil, and Magnetic-Moment-Free coil. Compared with the Helmholtz coil, the combined coil features the better magnetic field homogeneity under the same diameter, the higher homogeneity and larger homogeneity volume in the effective space, and is suitable for the high-precision and large-range magnetic field needs. This design can meet any parameter customization requirements.
VSM Product Accessories
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Power Line
WD type electromagnetic power cord
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Probe Holder
WD type electromagnetic probe holder
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Pure Iron Tip
WD type electromagnet pure iron pole head
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High precision electric control turntable
WD type high-precision electromagnetic control turntable
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Manual Turntable
WD type manual turntable
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Closed Loop Control System
WD type closed-loop control system
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
