Difference between revisions of "FAQ AMS Glossary"

From Jimenez Group Wiki
Jump to: navigation, search
(Analysis Software and Results)
(PMF-Related)
Line 64: Line 64:
  
 
* '''BBOA''': Biomass Burning Organic Aerosol
 
* '''BBOA''': Biomass Burning Organic Aerosol
 +
 +
* '''bootstrapping''':
 +
 +
* '''FPEAK''':
  
 
* '''HOA''': Hydrocarbon-like Organic Aerosol
 
* '''HOA''': Hydrocarbon-like Organic Aerosol
Line 84: Line 88:
  
 
* '''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.
 
* '''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.
 +
 +
* '''seeds''':
  
 
* '''SV-OOA''': Semi-Volatile Oxidized Organic Aerosol
 
* '''SV-OOA''': Semi-Volatile Oxidized Organic Aerosol

Revision as of 15:49, 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
  • CE: Collection Efficiency
  • 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
  • bootstrapping:
  • FPEAK:
  • 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.
  • seeds:
  • SV-OOA: Semi-Volatile Oxidized Organic Aerosol