Transit time of optical pulses propagating through a finite length medium
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Author/Creator ORCID
Date
2002-05-20
Type of Work
Department
Program
Citation of Original Publication
Mark Bloemer et al., Transit time of optical pulses propagating through a finite length medium, Phys. Rev. E Vol. 65, Iss. 5 (2002), https://doi.org/10.1103/PhysRevE.65.056615
Rights
©2002 The American Physical Society
Subjects
Abstract
We present experimental and theoretical results on the transit time of optical pulses propagating through bulk media of finite length, specifically GaAs and silica. The transit time of the peak of the pulse varies with the central wavelength due to the étalon effects caused by the reflectivity at the air/medium boundaries. For transform limited optical pulses, the transit time as a function of wavelength follows the transmittance spectrum, that is, the longest transit time occurs at the transmittance maxima where the cavity dwell time is the longest and the shortest transit time occurs at the transmittance minima. The results are dramatically different for chirped pulses obtained by modulating the injection current of a diode laser. The range in the transit times for chirped pulses is a factor of four times larger compared with transform limited pulses. In addition, the transit time for chirped pulses propagating through the GaAs sample is negative at certain wavelengths. Also, the transmitted pulse is not distorted. Although modulating the injection current of a diode laser is the most common method for generating optical pulses, to our knowledge this is the first reported observation of the transit time of these chirped optical pulses propagating through a simple étalon structure.