What differentiates Picarros technology for greenhouse gas and stable isotope measurements?
Fundamentally, both of these applications measure very small changes in concentration of various species, and therefore require very high precision and accuracy with exceptional stability. All Picarro analyzers utilize: 1. Highly stable temperature control – to 20 milli degrees C (0.006% of room temperature) – of both the sample, the measurement cavity and surrounding electronics, ensuring confidence in your data even in changing ambient temperatures (see link here). 2. Highly stable sample pressure control – to 0.024 Torr (0.003% of an atmosphere) – again ensuring the highest confidence in your data even as ambient pressure changes. 3. A patented wavelength monitor that provides highly accurate measurement and control of the laser’s wavelength – to 2MHz (0.000001% of its center wavelength) – used to precisely interrogate the spectral feature of interest. This unprecedented level of control provides uncompromised precision and accuracy over time and ambient conditions – since the spect
Related Questions
- Over the past several years, how much has the development of clean coal technology reduced greenhouse gas emissions in the US? Do you see a real potential for its use?
- What differentiates Picarros technology for greenhouse gas and stable isotope measurements?
- What do stable isotope measurements tell us?
