A simple electrodynamic model of a dust devil

A simple electrodynamic model of a dust devil

We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While thunderstorm processes focus on inductive charging between large graupel and smaller ice and water droplets, we tailor the model to focus on the...

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Published in:Geophysical research letters Vol. 30; no. 20; pp. 2050 - n/a
Main Authors: Farrell, William M., Delory, Greg T., Cummer, Steven A., Marshall, John R.
Format: Journal Article
Language:English
Published: American Geophysical Union 01-10-2003
Blackwell Publishing Ltd
Subjects:
Atmospheres—structure and dynamics
Atmospheric electricity
Meteorology
Meteorology and Atmospheric Dynamics
Planetary meteorology
Planetology
Solid Surface Planets
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Abstract We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While thunderstorm processes focus on inductive charging between large graupel and smaller ice and water droplets, we tailor the model to focus on the electric charge transfer between dust grains of different sizes and compositions. We specifically compare and contrast the triboelectric dust charging processes presented previously in Melnik and Parrot [1998] and Desch and Cuzzi [2000] in the development of macroscopic dust devil electric fields. We find that large vertical E‐fields (∼20 kV/m) can develop in the devil.
AbstractList We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While thunderstorm processes focus on inductive charging between large graupel and smaller ice and water droplets, we tailor the model to focus on the electric charge transfer between dust grains of different sizes and compositions. We specifically compare and contrast the triboelectric dust charging processes presented previously in Melnik and Parrot [1998] and Desch and Cuzzi [2000] in the development of macroscopic dust devil electric fields. We find that large vertical E‐fields (∼20 kV/m) can develop in the devil.
We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While thunderstorm processes focus on inductive charging between large graupel and smaller ice and water droplets, we tailor the model to focus on the electric charge transfer between dust grains of different sizes and compositions. We specifically compare and contrast the triboelectric dust charging processes presented previously in Melnik and Parrot [1998] and Desch and Cuzzi [2000] in the development of macroscopic dust devil electric fields. We find that large vertical E‐fields (∼20 kV/m) can develop in the devil.
We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While thunderstorm processes focus on inductive charging between large graupel and smaller ice and water droplets, we tailor the model to focus on the electric charge transfer between dust grains of different sizes and compositions. We specifically compare and contrast the triboelectric dust charging processes presented previously in Melnik and Parrot [1998] and Desch and Cuzzi [2000] in the development of macroscopic dust devil electric fields. We find that large vertical E-fields ( similar to 20 kV/m) can develop in the devil.
We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While thunderstorm processes focus on inductive charging between large graupel and smaller ice and water droplets, we tailor the model to focus on the electric charge transfer between dust grains of different sizes and compositions. We specifically compare and contrast the triboelectric dust charging processes presented previously in Melnik and Parrot [1998] and Desch and Cuzzi [2000] in the development of macroscopic dust devil electric fields. We find that large vertical E-fields (~20 kV/m) can develop in the devil.
Author Delory, Greg T.
Cummer, Steven A.
Farrell, William M.
Marshall, John R.
Author_xml – sequence: 1
  givenname: William M.
  surname: Farrell
  fullname: Farrell, William M.
  email: william.farrell@gsfc.nasa.gov
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– sequence: 2
  givenname: Greg T.
  surname: Delory
  fullname: Delory, Greg T.
  organization: Space Science Laboratory, UC Berkeley, California, Berkeley, USA
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  givenname: Steven A.
  surname: Cummer
  fullname: Cummer, Steven A.
  organization: Duke University, North Carolina, Durham, USA
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  givenname: John R.
  surname: Marshall
  fullname: Marshall, John R.
  organization: SETI Institute, California, Mountain View, USA
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Snippet We present an electrodynamic model of a dust devil applying a similar methodology as performed previously for charging in terrestrial thunderstorms. While...
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SubjectTerms Atmospheres—structure and dynamics
Atmospheric electricity
Meteorology
Meteorology and Atmospheric Dynamics
Planetary meteorology
Planetology
Solid Surface Planets
Title A simple electrodynamic model of a dust devil
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