Type

Journal Article

Authors

H. Folliot
John Francis Donegan
Ann Louise Bradley
Michael Lynch
T. Krug
Liam P. Barry
Paul J. Maguire

Subjects

Physics

Topics
temporal micro two photon absorption optical sampling sensitivity microcavity optical communication semiconductors

All-optical sampling utilising two-photon absorption in semiconductor microcavity (2005)

Abstract A highly-efficient optical sampling system based on Two-Photon Absorption in a semiconductor micro-cavity is presented. The sensitivity of the sampling system is calculated to be 0.1mW² with a temporal resolution of 2ps.
Collections Ireland -> Dublin City University -> Publication Type = Article
Ireland -> Dublin City University -> Status = Published
Ireland -> Dublin City University -> Subject = Physical Sciences
Ireland -> Dublin City University -> DCU Faculties and Centres = DCU Faculties and Schools: Faculty of Engineering and Computing: School of Electronic Engineering
Ireland -> Dublin City University -> Subject = Engineering: Optical communication
Ireland -> Dublin City University -> Subject = Physical Sciences: Semiconductors
Ireland -> Dublin City University -> Subject = Engineering
Ireland -> Dublin City University -> DCU Faculties and Centres = Research Initiatives and Centres
Ireland -> Dublin City University -> DCU Faculties and Centres = DCU Faculties and Schools
Ireland -> Dublin City University -> DCU Faculties and Centres = Research Initiatives and Centres: Research Institute for Networks and Communications Engineering (RINCE)
Ireland -> Dublin City University -> DCU Faculties and Centres = DCU Faculties and Schools: Faculty of Engineering and Computing

Full list of authors on original publication

H. Folliot, John Francis Donegan, Ann Louise Bradley, Michael Lynch, T. Krug, Liam P. Barry, Paul J. Maguire

Experts in our system

1
John Francis Donegan
Trinity College Dublin
Total Publications: 156
 
2
Ann Louise Bradley
Trinity College Dublin
Total Publications: 36
 
3
Liam P. Barry
Dublin City University
Total Publications: 153