Pegasus BT 4D GCxGC Time-of-Flight Mass Spectrometer

Pegasus BT 4D GCxGC

Time-of-Flight Mass Spectrometer

The Pegasus® BT 4D combines the power of our benchtop Pegasus BT with a high-performance GC×GC modulation system, delivering enhanced sensitivity for even the most challenging analytical applications. This advanced configuration provides the capability to thoroughly investigate complex samples where maximum sensitivity is essential.

Featuring innovative software and hardware, the Pegasus BT 4D simplifies quantitation and makes comprehensive two-dimensional gas chromatography (GC×GC) intuitive and accessible.

Our traditional thermal modulation system offers the highest sensitivity available on the market, ideal for analyzing the most intricate and demanding samples.

For those seeking improved performance beyond one-dimensional GC, our new FLUX™ flow modulation system is a versatile and cost-effective alternative that adds powerful capabilities to your analytical toolkit.

 

Features

  • Key Features of the Pegasus® BT 4D

    Seamless Software Integration with ChromaTOF®
    ChromaTOF®, LECO’s exclusive software for advanced chromatography, is fully integrated with the Pegasus BT 4D to streamline your analytical workflow. It eliminates the guesswork in analyte identification and quantification through powerful tools like NonTarget Deconvolution®, Target Analyte Find, and automated library searches. A user-friendly, configurable interface enhances productivity and ensures a superior GC×GC experience.

    Effortless Non-Targeted Analysis
    Unsure of what’s in your sample? The Pegasus BT 4D simplifies non-targeted analysis, making it easy to uncover unknowns in complex mixtures with confidence.

    Unmatched Sensitivity and Clarity
    Leverage the power of GC×GC modulation to clearly separate and identify analytes with exceptional sensitivity and resolution—ideal for even the most challenging sample types.

    Reliable and Low-Maintenance Operation
    Our open-style StayClean® EI Source virtually eliminates the need for frequent source cleaning, minimizing downtime and maximizing instrument uptime for uninterrupted sample throughput.