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Picarro, Inc
3105 Patrick Henry Dr., Santa Clara , California, United States

Memberships : NA
Industry : Energy
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Basic Member
Since Apr, 2015
About Company

Picarro is a leading provider of solutions to measure greenhouse gas (GHG) concentrations, trace gases and stable isotopes across many scientific applications, along with the energy and utilities markets. 

Cavity Ring-Down Spectroscopy

Our patented Cavity Ring-Down Spectroscopy (CRDS) is at the heart of all Picarro instruments and solutions, enabling the detection of target molecules at part per billion, or better, resolution. 

Scientific Instruments

Our portfolio of Picarro gas analyzers and systems enables scientists around the world to measure GHGs, trace gases and stable isotopes found in the air we breathe, water we drink and land we harvest.  The ultra-precise and easy-to-use instruments are deployed across the globe offering unmatched performance in a variety of field conditions. 

Leak Detection Solution for Utilities

Picarro Surveyor is the industry’s only leak detection solution that surveys mains and services at driving speeds, identifying likely leak locations, as well as leak-free areas.  Its secure user interface provides a real-time view of the survey coverage area and leak indications found, generating a data-driven audit trail.  Hazardous leaks can be quickly identified, while virtually eliminating false positives.  The leak source can be identified as biogenic methane or natural gas within minutes.

Industrial Solutions

Picarro’s industrial solutions range from mobile leak detection technology for utilities companies to trace gas analysis for semiconductor fabrication and pharmaceuticals isolators. 

Natural Sciences Field Research

Generate data in the field and analyze it on the spot to fast track critical environmental research. With real-time results, you will be able to identify trends faster and pursue new research questions as they emerge, without returning to the lab.

Wherever you go—from Antarctica to the Andes to the Sahara—Picarro’s rugged and compact systems measure concentration and isotope ratios for the most important molecules, with up to parts per billion resolution. You can use gas, liquid or solid samples; our handling accessories will make them work.

This is your lab away from the lab
Set it up in minutes and leave it in the field for months
Achieve the highest precision, previously reserved for lab-bound systems
Experience low drift, with minimal calibration
Access real-time data online, anytime
Quality data has never been more accessible. Picarro products and solutions are designed to allow you to jump straight to the important part of your research—identifying the patterns that break new ground in our understanding of planet earth.

Applications

Atmospheric science
Ecology
Hydrology
Ocean science
Paleoclimatology
Petrochemistry
Plant science
Soil science

Cavity Ring-Down Spectroscopy (CRDS)

Nearly every small gas-phase molecule (e.g., CO2, H2O, H2S, NH3) has a unique near-infrared absorption spectrum. At sub-atmospheric pressure, this consists of a series of narrow, well-resolved, sharp lines, each at a characteristic wavelength. Because these lines are well-spaced and their wavelength is well-known, the concentration of any species can be determined by measuring the strength of this absorption, i.e. the height of a specific absorption peak. But, in conventional infrared spectrometers, trace gases provide far too little absorption to measure, typically limiting sensitivity to the parts per million at best. CRDS - Cavity Ring-Down Spectroscopy - avoids this sensitivity limitation by using an effective pathlength of many kilometers. It enables gases to be monitored in seconds or less at the parts per billion level, and some gases at the parts per trillion level.

In CRDS, the beam from a single-frequency laser diode enters a cavity defined by two or more high reflectivity mirrors. Picarro analyzers use a three-mirror cavity, as in the figure below, to support a continuous traveling light wave. This provides superior signal to noise compared to a two-mirror cavity that supports a standing wave. When the laser is on, the cavity quickly fills with circulating laser light. A fast photodetector senses the small amount of light leaking through one of the mirrors to produce a signal that is directly proportional to the intensity in the cavity.

Schematic of Picarro CRDS analyzer showing how a ring down measurement is carried out.

When the photodetector signal reaches a threshold level (in a few tens of microseconds), the continuous wave (CW) laser is abruptly turned off. The light already within the cavity continues to bounce between the mirrors (about 100,000 times), but because the mirrors have slightly less than 100% reflectivity (99.999%), the light intensity inside the cavity steadily leaks out and decays to zero in an exponential fashion. This decay, or "ring down", is measured in real-time by the photodetector, and the amount of time it takes for the ring down to happen is determined solely by the reflectivity of the mirrors (for an empty cavity). Consider that for a Picarro cavity of only 25 cm in length, the effective pathlength within the cavity can be over 20 kilometers.

Now, if a gas species that absorbs the laser light is introduced into the cavity, a second loss mechanism within the cavity (absorption) is now introduced. This accelerates the ring down time compared to a cavity without any additional absorption due to a targeted gas species. Picarro instruments automatically and continuously calculate and compare the ring down time of the cavity with and without absorption due to the target gas species. This produces precise, quantitative measurements that account for any intra-cavity loss that may be changing over time, and it allows the discrimination of loss due to absorption from losses due to the cavity mirrors. Furthermore, the final concentration data is particularly robust because it is derived from the difference between these ring down times and is therefore independent of laser intensity fluctuations or absolute laser power.

This scheme of comparing the ring down time of the cavity without any absorbing gas, with the ring down time when a target gas is absorbing light is accomplished not by removing the gas from the cavity, but rather by using a laser whose wavelength can be tuned. By tuning the laser to different wavelengths where the gas absorbs light, and then to wavelengths where the gas does not absorb light, the "cavity only" ring down time can be compared to the ring down time when a target gas is contributing to the optical loss within the cavity. In fact, the laser is tuned to several locations across the target gas's spectral absorption line (and ring down measurements are conducted at all these points) and a mathematical fit to the shape of that absorption line is what is actually used to calculate the gas concentration.

 

Company NamePicarro, Inc
Business CategoryEnergy
Address3105 Patrick Henry Dr.
Santa Clara
California
United States
ZIP: 95054
PresidentAlex Balkanski
Year EstablishedNA
Employees200
MembershipsNA
Hours of OperationNA
Company Services
  • Isotope And Trace Gas Analyzers
  • Natural Gas Leaks
  • Earth Sciences
  • Energy Exploration And Distribution
  • Geo-informatics
  • Greenhouse Gas Measurements
  • Geo-spatial Visualization
  • Fugitive And Urban Emissions Measurements
  • Climate Change
  • Supply Chain Integrity
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