Difference between revisions of "FAQ AMS Glossary"

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* '''OOA''': Oxygenated Organic Aerosol
 
* '''OOA''': Oxygenated Organic Aerosol
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* '''OOA-1''': the more oxidized fraction of OOA. Frequently referred to as LV-OOA.
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* '''OOA-2''': the less oxidized fraction of OOA. Frequently referred to as SV-OOA.
  
 
* '''POA''': Primary Organic Aerosol, that emitted into the atmosphere in the particle phase. PMF cannot determine POA directly, but with some assumptions it can be used to estimate the POA concentration.
 
* '''POA''': Primary Organic Aerosol, that emitted into the atmosphere in the particle phase. PMF cannot determine POA directly, but with some assumptions it can be used to estimate the POA concentration.

Revision as of 15:22, 23 February 2010

This is a glossary of terms and acronyms typically used by the AMS community. It is a work in progress - so is by no means complete or comprehensive. Please continue to add and edit!

Hardware and Data Acquisition

  • ACSM: Aerosol Chemical Speciation Monitor, also known as "Mini-AMS". A smaller and cheaper version of the AMS using a small quadrupole, designed for monitoring purposes.
  • AMS: Aerosol Mass Spectrometer. In our community it always means the Aerodyne AMS, but a few other groups have named other instruments "AMS", which are unrelated to the Aerodyne AMS.
  • CRiTTR: Piece of software to run the pulsers and move the chopper independently of the AMS Data Acquisition software (DAQ)
  • DAQ: Data Acquisition Software
  • Light Scattering:
  • MAB-AMS: Metastable Atom Bombardment AMS. An adaptation of the AMS which uses soft ionization for analysis of the OA with lower fragmentation.
  • Mini-AMS: see ACSM above.
  • Q-AMS: Quadrupole AMS. The original version of the AMS, described in Jayne et al. (AS&T 2000).
  • SP-AMS: Soot Particle AMS. New instrument developed which combines the SP2 (Single Particle Soot Photometer) particle vaporization and the AMS ionization and mass spectrometry.
  • TOF-MS: Time of Flight mass spectrometer

Analysis Software and Results

  • APES: Analytic Procedure for Elemental Separation. An Igor tool for performing an elemental analysis (i.e. O/C ratio). In Pika 1.07 most of this code was merged with the pika code, but a version of APES remain as a stand-alone Igor code.
  • Background: In general this term should be avoided as it is too ambiguous. (Background ambient measurement conditions? Background instrumental signal? etc.) The use of 'Closed mass spectra' is encouraged where appropriate.
  • Baseline: In a mass spectra, the 'region between the peaks' for an open, closed or difference mass spectra.
  • Closed: The mass spectrum taken with the chopper in the 'blocked' position, and typically considered instrument background and gas-phase contribution to AMS signal
  • Diff: The Difference Spectrum; difference in chopper-open mass spectrum and chopper-closed mass spectrum; typically considered the mass spectrum due to particle signal
  • fx: the fraction of the total organic signal that is observed at m/z = x. E.g. f44 is the fraction of the total OA signal at m/z 44. Sometimes also written as 44/Org or 44/OA.
  • fragments: a vaporized molecule is ionized in the AMS to a series of ions, which are then detected by either a quadrupole or time-of-flight mass spectrometer; the resulting ions are referred to as 'fragments'
  • Non-refractory (NR) species: chemical components of aerosol that are volatilized in the AMS, and are observed in the "Difference spectrum". This requires evaporation in a time scale shorter than chopper open/closed movement, whish is typically 3-5 seconds. Examples include the usual AMS species: sulfate, nitrate, ammonium, chloride, and organic (OA). Note that these species can also have some semi-refractory signal, although this is typically a small fraction (5-10% of the NR signal under typical operating conditions).
  • Refractory species: chemical components of aerosol that are not volatile enough to vaporize in the AMS in a time scale of at least a few hours, and thus are never observed by the instrument. Examples include black carbon (see SP2-AMS).
  • Semi-refractory(SR) species: chemical components of aerosol that are relatively less volatile, and only slowly vaporize in the AMS. Functionally, they are observed in both the the Closed and Open signals (time-scale for vaporization is much longer than the time scale of open/closed chopper movement). Examples include some chemical forms of Pb (lead) and possibly NaCl.
  • HR: High Resolution (as opposed to UMR, typically referring to either the High Resolution Time of Flight Aerosol Mass Spectrometer, or to the data derived from that instrument)
  • ipf: Igor Procedure File
  • Open: Mass spectra acquired when the chopper is in the 'open' position - both air and aerosols are entering and being detected
  • PIKA: Peak Integration by Peak Analysis. This is a somewhat contorted acronym, but this name really indicates "High Resolution Analysis" or HR analysis where individual peaks (C3H6 and C2H2O at ~ m/z 42).
  • SPARROW: Single PARicle Retrieval Of Waves. The Igor analysis tool for AMS light scattering data.
  • SQUIRREL: SeQUential Igor data RetRiEvaL. The Igor analysis tool for non-Quad AMS data.
  • UMR: Unit Mass Resolution (as opposed to HR: ie, signal observed at m/z 28 is UMR, whereas HR data typically shows two peaks, one from N2+ and another from CO+)

PMF-Related

  • BBOA: Biomass Burning Organic Aerosol
  • HOA: Hydrocarbon-like Organic Aerosol
  • LV-OOA: Low volatility-oxygenated organic aerosol
  • OA: organic aerosol. Often also referred to as OM, organic mass. Some authors also refer to this as POM, for particulate organic mass.
  • OOA: Oxygenated Organic Aerosol
  • OOA-1: the more oxidized fraction of OOA. Frequently referred to as LV-OOA.
  • OOA-2: the less oxidized fraction of OOA. Frequently referred to as SV-OOA.
  • POA: Primary Organic Aerosol, that emitted into the atmosphere in the particle phase. PMF cannot determine POA directly, but with some assumptions it can be used to estimate the POA concentration.
  • PET: PMF Evaluation Tool. An interface for examining the results of many PMF analyses.
  • PMF: Positive Matrix Factorization
  • Q or Q value: Q is the objective function that PMF minimizes to find its solution. It is the sum of the squared residual at each datapoint, divided by the squared error estimate for that datapoint.
  • SV-OOA: Semi-Volatile Oxidized Organic Aerosol