International audienceMany Magnetic MEMS have been recently developed to manipulate spherical diamagnetic or superparamagnetic particles. Magnetic forces can be computed using the dipole method or the semi-numerical integral. However, these methods appear inaccurate or time consuming, respectively. This paper proposes a multipolar approach which provides a satisfying compromise between precision and rapidity to compute the magnetic force on linear magnetized beads. Gain in precision and CPU time will be detailed for water droplets levitating above micromagnets
Magnetic core shell nanoparticles (MCSNPs) 30 nm diameter with a magnetic weight of 10% are usually ...
Diamagnetic levitation is one of the rare way to compensate action of gravity. This kind of repulsio...
Magnetic actuation is a droplet manipulation mechanism in digital microfluidics (DMF), where droplet...
International audienceMany Magnetic MEMS have been recently developed to manipulate spherical diamag...
This publication presents computation of magnetic force acting on particle moving in the field crea...
In previous works, microfabricated permanent magnets were designed and fabricated for levitating pic...
dissertationThis dissertation explores the design and use of an electromagnetic manipulation system ...
We report the design and validation of simple magnetic tweezers for oscillating ferromagnetic beads ...
International audienceConstrained optimization may use time-consuming analysis on standard methods s...
Diamagnetic levitation is one of the rare way to compensate action of gravity. This kind of repulsio...
Here we report construction of a simple electromagnet with novel polepieces which apply a spatially ...
In this paper we describe the two-dimensional (2D) magnetic manipulation of aqueous droplets suspend...
As a powerful and versatile scientific instrument, magnetic tweezers have been widely used in biophy...
La lévitation diamagnétique est un des rares phénomènes permettant de soustraire des corps à la grav...
International audienceMagnetic microrobots have a wide variety of applications in micro/nano-manipul...
Magnetic core shell nanoparticles (MCSNPs) 30 nm diameter with a magnetic weight of 10% are usually ...
Diamagnetic levitation is one of the rare way to compensate action of gravity. This kind of repulsio...
Magnetic actuation is a droplet manipulation mechanism in digital microfluidics (DMF), where droplet...
International audienceMany Magnetic MEMS have been recently developed to manipulate spherical diamag...
This publication presents computation of magnetic force acting on particle moving in the field crea...
In previous works, microfabricated permanent magnets were designed and fabricated for levitating pic...
dissertationThis dissertation explores the design and use of an electromagnetic manipulation system ...
We report the design and validation of simple magnetic tweezers for oscillating ferromagnetic beads ...
International audienceConstrained optimization may use time-consuming analysis on standard methods s...
Diamagnetic levitation is one of the rare way to compensate action of gravity. This kind of repulsio...
Here we report construction of a simple electromagnet with novel polepieces which apply a spatially ...
In this paper we describe the two-dimensional (2D) magnetic manipulation of aqueous droplets suspend...
As a powerful and versatile scientific instrument, magnetic tweezers have been widely used in biophy...
La lévitation diamagnétique est un des rares phénomènes permettant de soustraire des corps à la grav...
International audienceMagnetic microrobots have a wide variety of applications in micro/nano-manipul...
Magnetic core shell nanoparticles (MCSNPs) 30 nm diameter with a magnetic weight of 10% are usually ...
Diamagnetic levitation is one of the rare way to compensate action of gravity. This kind of repulsio...
Magnetic actuation is a droplet manipulation mechanism in digital microfluidics (DMF), where droplet...