Add to ORKGAs demonstrated in microelectronics, the batch fabrication based on the processing of wafers can lead to a significant reduction in prize as well as in size. This concept was adapted to the fabrication of imaging optics extensively used in mobile phone cameras relying on small pixels but was limited in resolution. UV-replication is the standard technique for the objective fabrication where a liquid polymer, which fills the molding tool of the lenses, is hardened using UV-radiation. This technique is essential in single aperture objectives as well as in innovate array camera approaches which are at the stage of commercialization
We report on the fabrication of high-optical-quality microlens arrays based on ultraviolet (UV)-cura...
A new technique of microlens array fabrication based on the use of excimer laser radiation is descri...
A new technique of microlens array fabrication based on the use of excimer laser radiation is descri...
As demonstrated in microelectronics, the batch fabrication based on the processing of wafers can lea...
A replication technique allowing for the wafer scale integration of microoptical elements is present...
The potential and limits of micromoulding technology for the wafer scale hybrid integration of micro...
Polymer replication technique enables for low cost devices even in the case of aspheric or irregular...
A solution is described for replication of polymer microoptical elements on arbitrary substrates. Th...
Artificial compound eye cameras are a prominent approach of next generation wafer level cameras for ...
The fabrication of microlenses is of great interest for several applications in the field of optics ...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...
The traditional process of making glass lenses requires grinding and polishing of the material which...
There is a huge demand on miniaturized cameras in the field of mobile consumer electronics. These ca...
We report on the fabrication of high-optical-quality microlens arrays based on ultraviolet (UV)-cura...
We report on the fabrication of high-optical-quality microlens arrays based on ultraviolet (UV)-cura...
A new technique of microlens array fabrication based on the use of excimer laser radiation is descri...
A new technique of microlens array fabrication based on the use of excimer laser radiation is descri...
As demonstrated in microelectronics, the batch fabrication based on the processing of wafers can lea...
A replication technique allowing for the wafer scale integration of microoptical elements is present...
The potential and limits of micromoulding technology for the wafer scale hybrid integration of micro...
Polymer replication technique enables for low cost devices even in the case of aspheric or irregular...
A solution is described for replication of polymer microoptical elements on arbitrary substrates. Th...
Artificial compound eye cameras are a prominent approach of next generation wafer level cameras for ...
The fabrication of microlenses is of great interest for several applications in the field of optics ...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...
The fabrication of micro lens array pattern using UV contact printing followed by thermal reflow. So...
The traditional process of making glass lenses requires grinding and polishing of the material which...
There is a huge demand on miniaturized cameras in the field of mobile consumer electronics. These ca...
We report on the fabrication of high-optical-quality microlens arrays based on ultraviolet (UV)-cura...
We report on the fabrication of high-optical-quality microlens arrays based on ultraviolet (UV)-cura...
A new technique of microlens array fabrication based on the use of excimer laser radiation is descri...
A new technique of microlens array fabrication based on the use of excimer laser radiation is descri...