Applied Sciences (Mar 2019)

Fastest Thickness Measurements with a Terahertz Time-Domain System Based on Electronically Controlled Optical Sampling

  • Milad Yahyapour,
  • Angelika Jahn,
  • Katja Dutzi,
  • Thomas Puppe,
  • Patrick Leisching,
  • Bernhard Schmauss,
  • Nico Vieweg,
  • Anselm Deninger

DOI
https://doi.org/10.3390/app9071283
Journal volume & issue
Vol. 9, no. 7
p. 1283

Abstract

Read online

We apply a fast terahertz time-domain spectroscopy (TDS) system based on electronically controlled optical sampling (ECOPS) to contact-free thickness gauging. Our setup achieves a measurement speed of 1600 terahertz pulse traces per second, which—to our knowledge—represents the fastest thickness measurement performed with any terahertz system to-date. Using a silicon wafer as a test sample, we compare data of the ECOPS experiment to results obtained with a conventional terahertz TDS system and a mechanical micrometer gauge. We show that all systems provide consistent results within the measurement accuracy. Moreover, we perform thickness measurements of a rapidly moving sample and characterize the ECOPS setup with respect to time-domain dynamic range, signal-to-noise ratio, and spectral properties.

Keywords