PB7200 Frequency Domain Terahertz Spectrometer

High-Resolution, High-Bandwidth System

• Chemical/biological/explosive threat detection
• Materials and device characterization
• Industrial process control
• Medical investigations and clinical trials
• Scientific investigations

Features

• Full Turn-key System:  Arrives Completely Configured and Ready to Start Making Measurements
• Extremely Economical:  A fraction of the cost of previous THz Systems
• Portable: configurable with builtt-in Li Ion battery with up to 6.5  hours of continuous use
• Continuous rapid scanning from 100 GHz to over 2.0 THz
• Compact:  under 11″x 9″ x 3″ (28 cm x 22 cm x 7.5 cm) and less than 10 lbs (4.5 kg)
• Optional Integration Touch Screen Control, PC104 running on Microsoft Windows
• Integrated Lock-in Detection
• Room Temeprature Solid State Detection:  No Cryogenics Required
• Configurations:
  Custom & OEM configurations available
• Optional:
  Nitrogen purged enclosure

PB7200 Datasheet (PDF)

Article (PDF)

Microwave and Terahertz Spectroscopy

EMCORE’s versatile PB7200 Spectroscopy Platform is designed for scanning complex compounds to precise specifications with greater accuracy and control.

Designed for THz researchers and application developers who need to study the properties of materials at THz frequencies with high-resolution, but who don’t want to design and build their own high-resolution THz spectroscopy system. The PB7200 can sweep up to 2.0 THz in a single rapid scan with frequency resolution better than 0.25 GHz.

The PB7200 employs precisely tuned semiconductor DFB lasers, advanced photo-mixing source and detector, and sophisticated digital control hardware and software to provide a fully turn-key portable THz spectrometer system. The room temperature solid-state homodyne detection technique results in a system NEP of 10-12 W/Hz without the need for cryogenics. The highly efficient CW nature of the photo-mixing source puts all the THz power at the frequency of interest, yielding excellent signal-to-noise ratio.

And, unlike prior time-domain systems requiring complicated mode-locked lasers, the tunable semiconductor laser diodes in the PB7200 can support linear scans or can at a specific frequency of interest to scan specific regions of the spectrum with varying degrees of resolution. The separate source and detector heads may be configured to make measurements in transmission or reflection configurations.