Energy transport through the substrate is modeled numerically in both two and three dimensions using conventional conduction formulae and ultrafast electron density evolution for the case of femtosecond pulse irradiation. The combined electrodynamic/heat transfer solutions generate final lithographic predictions which are compared to experimental characterizations.how the coupling can be reversed, allowing the possibility of development of surface plasmon based photonic circuits, i.e. ... (2005b) experimentally demonstrated an energy coupling of a nanoparticle plasmon waveguide with an optical fiber, anbsp;...
|Title||:||Laser/microstructure Interaction and Ultrafast Heat Transfer|
|Author||:||Alexander John Heltzel|
|Publisher||:||ProQuest - 2006|