Portable Spinning Magnetometer

Portable Precision for Magnetic Analysis

Measure Remanent Magnetization with Ease and Portability

Ultra-Sensitive Spinner Magnetometer

Extremely Sensitive and Noncryogenic

Measure Remanent Magnetization with Highest Precision

Variable Field Translation Balance

A Sensitive And Versatile Instrument for Measuring the Magnetic Properties of Materials

Providing Valuable Information About Magnetic Properties and Aiding in Diverse Research Areas

Bacteriodrome and Magnetodrome

Studying the Influence of Magnetic Fields on Magnetic Compounds or Organisms

Uncover Magnetic Field Influence in Biological and Material Systems

Alternating Field Demagnetizer

Efficient Demagnetization for Magnetic Materials

Remove Magnetization with Precision and Control

Pulse Magnetizer

Ideal for Isothermal Remanent Magnetization Experiments

Impart Magnetization with Precision and Control

Discover Mag-Instruments Products for Magnetic Analysis

Product Line

Utility in Magnetic Research, Analysis, and Measurement of Magnetic Properties

Application Fields

Biomagnetism

Mag-Instruments’ Bacteriodrome and Magnetodrome have been specifically developed to investigate and manipulate magnetotactic bacteria. These instruments are essential for studying biomagnetism and understanding the behavior and biomagnetic processes of these microorganisms.

Microrobotics

In the emerging field of magnetic microrobotics, Mag-Instruments’ Bacteriodrome and Magnetodrome play a crucial role. These instruments allow for the precise control of magnetic fields, enabling the locomotion and manipulation of tiny robots. They find applications in small-scale transportation, chemical mixing, microfluidics, bioengineering, and nanorheology.

Colloidal Science

Mag-Instruments’ Bacteriodrome and Magnetodrome are instrumental in the field of colloidal science. They facilitate the controlled self-assembly and aggregation of para- or ferromagnetic nanoparticles into ordered structures. These techniques contribute to the development and fabrication of novel functional materials with extensive applications in the chemical industry, biotechnology, pharmaceuticals, and nanotechnology.

Targeted Drug Delivery and Minimally Invasive Surgery

While Mag-Instruments’ product offerings are more focused on magnetic research and analysis, they may indirectly contribute to advancements in targeted drug delivery and minimally invasive surgery through their applications in medical research and magnetic techniques. It’s important to note that Mag-Instruments’ products themselves may not be directly designed or marketed for targeted drug delivery or minimally invasive surgery.

Geosciences

Mag-Instruments’ Variable Field Translation Balance (VFTB) is an essential tool for investigating the magnetic properties of rocks, sediments, and soils. It provides valuable insights into their formation processes and magnetization characteristics, contributing to the understanding of Earth’s geological history.

Proxy Parameters Analysis

Mag-Instruments’ VFTB, PSM, and USM are valuable tools for determining proxy parameters related to grain size, mineralogy, and origin of investigated materials. These parameters provide crucial indicators for researchers in geosciences, archaeology, and environmental sciences, enhancing the understanding of various materials and their geological context.

Rock Magnetism

Mag-Instruments’ Variable Field Translation Balance (VFTB) is an essential tool for studying the magnetic properties of rocks, sediments, and soils. VFTB, along with Pulse Magnetizer, PSM, USM, and AF Demagnetizer, which Mag-Instruments also offers, provides insights into the formation processes and magnetization acquisition of these rocks, sediments, and soils and helps interpret terrestrial magnetic anomalies in various geological settings.

Paleomagnetism

Mag-Instruments’ PSM, USM, and AF Demagnetizer are widely used in paleomagnetism research. They enable the determination of the characteristic magnetic remanence direction and intensity in oriented rock samples and burned archaeological artifacts. These data are crucial for plate tectonic reconstructions, magnetostratigraphy studies, and understanding Earth’s geological history.

Geochronology

The Portable Spinning Magnetometer (PSM) and Ultra-Sensitive Spinner Magnetometer (USM) offered by Mag-Instruments play a significant role in geochronology. They allow for the dating of rock sequences through polarity and paleointensity magnetostratigraphy. This technique provides valuable chronological information and helps researchers unravel the timelines of geological events.

Environmental Sciences

Mag-Instruments’ VFTB, PSM, USM, AF Demagnetizer, and Pulse Magnetizer products are indispensable for environmental scientists. These instruments analyze the magnetic properties of soil and sediments, serving as proxies for environmental changes. They contribute to paleoclimatic and paleoceanographic studies, providing valuable insights into Earth’s past climates.

Archaeology & Magnetometry

The PSM, USM, AF Demagnetizer, and Pulse Magnetizer offered by Mag-Instruments are valuable instruments for characterizing the magnetic properties of soil samples and materials from archaeological sites. They help refine the interpretation of magnetic anomalies in magnetograms and provide insights into past human activities.

Material Sciences

In the field of material sciences, Mag-Instruments’ VFTB, Pulse Magnetizer, AF Demagnetizer, PSM, and USM play a crucial role. These instruments allow for the determination of material-specific magnetic properties, such as coercivity, saturation magnetization, and Curie temperature. They also facilitate the investigation of grain size and grain interactions in ferromagnetic materials, aiding in the development and fabrication of novel functional materials.

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