MOVEMENT OF TANDEM MAGNETIC NANOPARTICLES IN AN ALTERNATING MAGNETIC FIELD

This research article considers the tandem magnetic nanoparticles, which consists magnetic nanoparticle, connected with functional nanoparticle by carbon nanotube, exploring the transformative impact of temporal changes in magnetic fields on their behavior. By manipulating magnetic induction, using sifted center of mass such nanoparticles and necessary angle between its axis and magnetic dipole moment, we can exercise precise control over the movement of such nanoparticles. This holds immense promise for various applications, particularly in the field of medicine.

Nanotechnology has a wide range of applications in the medical field, particularly as nanomedicine. Some nanoparticles are promising for new diagnostic tools, imaging techniques, targeted therapies, pharmaceuticals, biomedical implants, and tissue engineering. Nanotechnology allows for the safer administration of high-toxicity treatments, such as chemotherapy drugs for cancer. Additionally, wearable devices can monitor vital signs, detect cancer cells, and identify infections in real time. These advancements are expected to give doctors significantly better access to critical information about the causes of changes in health, directly from the source of the issue.

The study examines the scenarios where the magnetic moment and the center of mass of a nanoparticle are misaligned, creating a tandem nanoparticle. The paper investigates the effects of an alternating external magnetic field on such nanoparticles, focusing on specific motion patterns that can be utilized to control the position and velocity of the particles.

For this study, relevant literature on nanotechnology in the medical field was reviewed from sources like Scopus, Google Scholar, ResearchGate, and other research platforms.

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