dissertationThis dissertation explores the design and use of an electromagnetic manipulation system that has been optimized for the dipole-eld model. This system can be used for noncontact manipulation of adjacent magnetic tools and combines the eld strength control of current electromagnetic systems with the analytical modeling of permanent-magnet systems. To design such a system, it is rst necessary to characterize how the shape of the eld source aects the shape of the magnetic eld. The magnetic eld generated by permanent magnets and electromagnets can be modeled, far from the source, using a multipole expansion. The error associated with the multipole expansion is quantied, and it is shown that, as long as the point of interest is 1.5 ra...
Particle accelerators include complex, larger-than-life technology that excites the imagination and ...
Magnetic manipulation has the potential to recast the medical field both from an operational and dru...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
dissertationThis dissertation presents results documenting advancements on the control of untethered...
International audienceMany Magnetic MEMS have been recently developed to manipulate spherical diamag...
An Omnimagnet is an omnidirectional electromagnet comprising a spherical ferromagnetic core inside o...
thesisUntethered magnetic devices such as magnetic capsule endoscopes, magnetic swimming microrobots...
Cylindrical/ring-shaped permanent magnets with diametrical magnetization can be found in many applic...
This thesis examines the use of electromagnetic modelling techniques in the development of realistic...
In contrast to some programs, intended for modeling 2D magnetic elds, widely known commercial 3D CAD...
A model describing the motion of a magnetized sphere in a fluid medium subject to an applied field i...
In this thesis, two alternative solenoid designs are presented: 'Air-core' coil design and 'C-shape'...
The dipole approximation for magnetic fields has become a common simplifying assumption in magnetic-...
When approaching the design of a multipole magnet, such as a dipole, quadrupole, sextupole, and so o...
The design of electromagnets is an iterative process in which the designer arrives at a solution to ...
Particle accelerators include complex, larger-than-life technology that excites the imagination and ...
Magnetic manipulation has the potential to recast the medical field both from an operational and dru...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
dissertationThis dissertation presents results documenting advancements on the control of untethered...
International audienceMany Magnetic MEMS have been recently developed to manipulate spherical diamag...
An Omnimagnet is an omnidirectional electromagnet comprising a spherical ferromagnetic core inside o...
thesisUntethered magnetic devices such as magnetic capsule endoscopes, magnetic swimming microrobots...
Cylindrical/ring-shaped permanent magnets with diametrical magnetization can be found in many applic...
This thesis examines the use of electromagnetic modelling techniques in the development of realistic...
In contrast to some programs, intended for modeling 2D magnetic elds, widely known commercial 3D CAD...
A model describing the motion of a magnetized sphere in a fluid medium subject to an applied field i...
In this thesis, two alternative solenoid designs are presented: 'Air-core' coil design and 'C-shape'...
The dipole approximation for magnetic fields has become a common simplifying assumption in magnetic-...
When approaching the design of a multipole magnet, such as a dipole, quadrupole, sextupole, and so o...
The design of electromagnets is an iterative process in which the designer arrives at a solution to ...
Particle accelerators include complex, larger-than-life technology that excites the imagination and ...
Magnetic manipulation has the potential to recast the medical field both from an operational and dru...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...