Owing to an enhanced laser concept, users take benefit of even better terahertz signals: The system achieves a peak dynamic range greater than 100 dB, and a bandwidth of more than 6 THz. The “dual” version enables simultaneous measurements in transmission and reflection, or terahertz spectroscopy with orthogonal polarizations. Alternatively, users may choose to connect just one antenna pair and take advantage of the additional femtosecond-laser output for optical-pump terahertz-probe experiments.
A new “wide-scan” option boosts the scan range from previously 200 ps to 1000 ps, which translates into a frequency resolution of 1.0 GHz. At the same time, the system offers maximum flexibility with respect to the chosen measurement setup: With just a software click, the system adapts to any terahertz path length between 15 cm and 110 cm. Thanks to an improved mechanical delay, the system now acquires 95 traces/s at a scan range of 20 ps, and 60 traces/s at 50 ps.
Researchers can thus utilize the same system for applications as diverse as near-field measurements, spectroscopy, imaging, or even in more complex configurations that include a cryostat in the beam path. For even longer path lengths or other specific requirements, TOPTICA can provide customized versions of the TeraFlash pro.
Due to its versatility, ease-of-use and its excellent signal quality, the TeraFlash pro lends itself to a wide range of scientific applications, including wide-band spectroscopy, metamaterial analysis, near-field studies and imaging of cultural-heritage objects. Outside of academic research, it is also an ideal tool for industrial terahertz applications, such as layer thickness gauging and quality control of semiconductors.
For any further information please consult our web page at: www.toptica.com/record-specs