Title :
Fabrication of Microlens Arrays by Utilizing Magnetic Hydrodynamic Instability of Ferrofluid Droplets
Author :
Chiun Peng Lee ; Yi Hsin Chen ; Mei Feng Lai
Author_Institution :
Dept. of Power Mech. Eng., Nat. Tsing Hua Univ., Hsinchu, Taiwan
Abstract :
This study proposes an actively controllable method for fabrication of polymer microlens arrays. Hexagonal arrays of ferrofluid droplets, which were utilized as the mother-mold masters for microlens molding, were generated by inducing the magnetic hydrodynamic instability under different magnetic fields. To fabricate numerous cavity molds for microlens array molding, we used the field-dependent shapes of the ferrofluid droplets to create different sized molds. For the fabricated microlens arrays, their field-dependent bottom areas, lens height, radii of curvature, and the fill-factor were discussed. Furthermore, performances of the microlenses, including the numerical aperture, focal length, and depth of field, were tested.
Keywords :
drops; magnetic fluids; magnetohydrodynamics; microfabrication; microlenses; optical arrays; optical fabrication; optical polymers; actively controllable method; curvature radii; ferrofluid droplets; field-dependent shapes; focal length; hexagonal arrays; magnetic fields; magnetic hydrodynamic instability; microlens array molding; microlens molding; microlenses; mother-mold masters; numerous cavity molds; polymer microlens array fabrication; Fabrication; Lenses; Magnetic resonance imaging; Magnetic separation; Magnetostriction; Microoptics; Shape; Ferrofluid droplet; magnetic hydrodynamic instability; microlens array;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2276103
