Title :
Elastomeric molding, stamping and near-field photolithographic methods for integrated optics and electronics
Author :
Rogers, John A. ; Bao, Zhen ; Dodabalapur, Ananth
Author_Institution :
Lucent Technol. Bell Labs., Murray Hill, NJ, USA
Abstract :
Summary form only given. Our recent research focuses on the development and use of rubber stamping (microcontact printing-/spl mu/CP), optical near-field methods that use conformable photomasks, and molding techniques that rely on elastomeric transfer elements. We explore, in particular, their applicability to the fabrication of certain systems in integrated optics and organic electronics. In this talk, I provide an overview of these soft lithographic techniques by highlighting their advantages and disadvantages compared to more established methods. The fidelity of the molding procedures are demonstrated through the fabrication of working plastic lasers that use molded distributed feedback (DFB), distributed Bragg reflector (DBR), and photonic crystal resonators with features as small as 100 nm. photolithographic methods.
Keywords :
distributed Bragg reflector lasers; distributed feedback lasers; masks; moulding; optical fabrication; optical polymers; photolithography; plastics; rubber; solid lasers; DBR lasers; elastomeric molding; elastomeric transfer elements; electronics; integrated optics; microcontact printing; molded DFB lasers; molding procedures; molding techniques; near-field photolithographic methods; optical near-field methods; organic electronics; overview; photomasks; rubber stamping; soft lithographic techniques; stamping; working plastic lasers; Distributed Bragg reflectors; Distributed feedback devices; Integrated optics; Laser feedback; Optical device fabrication; Optical feedback; Optical resonators; Organic electronics; Plastics; Rubber;
Conference_Titel :
Lasers and Electro-Optics Europe, 2000. Conference Digest. 2000 Conference on
Conference_Location :
Nice
Print_ISBN :
0-7803-6319-1
DOI :
10.1109/CLEOE.2000.910183
