An alternative model for near-field propagation and optical tunneling is proposed,following the lines of the path-integral method developed by Feynman, and in particular by using a transition-elements analysis. Such a model was able to account for the frequency dependency of delay-time results of an experiment involving microwave propagation in the near field using two horn antennas [Ranfagni A. et al., Phys. Rev. E, 66, 036111 (2002)]. Furthermore, this approach is also capable of interpreting delay- time results as a function of the barrier width in a frustrated total internal reflection experiment performed at the microwave scale and in the optical region.
Anomalous Delay in Wave Propagation and Tunneling: A Transition-Elements Analysis of the Traversal Time
2002
Abstract
An alternative model for near-field propagation and optical tunneling is proposed,following the lines of the path-integral method developed by Feynman, and in particular by using a transition-elements analysis. Such a model was able to account for the frequency dependency of delay-time results of an experiment involving microwave propagation in the near field using two horn antennas [Ranfagni A. et al., Phys. Rev. E, 66, 036111 (2002)]. Furthermore, this approach is also capable of interpreting delay- time results as a function of the barrier width in a frustrated total internal reflection experiment performed at the microwave scale and in the optical region.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
