Measurements of the vertical fluxes of atomic Fe and Na at the mesopause: Implications for the velocity of cosmic dust entering the atmosphere

Wentao Huang; Xinzhao Chu; Chester S. Gardner; Juan D. Carrillo-Sánchez; Wuhu Feng; John M.C. Plane; David Nesvorný

doi:10.1002/2014GL062390

Measurements of the vertical fluxes of atomic Fe and Na at the mesopause: Implications for the velocity of cosmic dust entering the atmosphere

Wentao Huang, Xinzhao Chu, Chester S. Gardner, Juan D. Carrillo-Sánchez, Wuhu Feng, John M.C. Plane, David Nesvorný

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The downward fluxes of Fe and Na, measured near the mesopause with the University of Colorado lidars near Boulder, and a chemical ablation model developed at the University of Leeds, are used to constrain the velocity/mass distribution of the meteoroids entering the atmosphere and to derive an improved estimate for the global influx of cosmic dust. We find that the particles responsible for injecting a large fraction of the ablated material into the Earth's upper atmosphere enter at relatively slow speeds and originate primarily from the Jupiter Family of Comets. The global mean Na influx is 17,200 ± 2800 atoms/cm²/s, which equals 298 ± 47 kg/d for the global input of Na vapor and 150 ± 38 t/d for the global influx of cosmic dust. The global mean Fe influx is 102,000 ± 18,000 atoms/cm²/s, which equals 4.29 ± 0.75 t/d for the global input of Fe vapor.

Original language	English (US)
Pages (from-to)	169-175
Number of pages	7
Journal	Geophysical Research Letters
Volume	42
Issue number	1
DOIs	https://doi.org/10.1002/2014GL062390
State	Published - Jan 16 2015

Keywords

Fe and Na lidars
chemical ablation model
cosmic dust
global meteor influx
velocity distribution of meteoroids
vertical flux of constituent

ASJC Scopus subject areas

Geophysics
Earth and Planetary Sciences(all)

Online availability

10.1002/2014GL062390

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title = "Measurements of the vertical fluxes of atomic Fe and Na at the mesopause: Implications for the velocity of cosmic dust entering the atmosphere",

abstract = "The downward fluxes of Fe and Na, measured near the mesopause with the University of Colorado lidars near Boulder, and a chemical ablation model developed at the University of Leeds, are used to constrain the velocity/mass distribution of the meteoroids entering the atmosphere and to derive an improved estimate for the global influx of cosmic dust. We find that the particles responsible for injecting a large fraction of the ablated material into the Earth's upper atmosphere enter at relatively slow speeds and originate primarily from the Jupiter Family of Comets. The global mean Na influx is 17,200 ± 2800 atoms/cm2/s, which equals 298 ± 47 kg/d for the global input of Na vapor and 150 ± 38 t/d for the global influx of cosmic dust. The global mean Fe influx is 102,000 ± 18,000 atoms/cm2/s, which equals 4.29 ± 0.75 t/d for the global input of Fe vapor.",

keywords = "Fe and Na lidars, chemical ablation model, cosmic dust, global meteor influx, velocity distribution of meteoroids, vertical flux of constituent",

author = "Wentao Huang and Xinzhao Chu and Gardner, {Chester S.} and Carrillo-S{\'a}nchez, {Juan D.} and Wuhu Feng and Plane, {John M.C.} and David Nesvorn{\'y}",

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AU - Huang, Wentao

AU - Chu, Xinzhao

AU - Gardner, Chester S.

AU - Carrillo-Sánchez, Juan D.

AU - Feng, Wuhu

AU - Plane, John M.C.

AU - Nesvorný, David

PY - 2015/1/16

Y1 - 2015/1/16

N2 - The downward fluxes of Fe and Na, measured near the mesopause with the University of Colorado lidars near Boulder, and a chemical ablation model developed at the University of Leeds, are used to constrain the velocity/mass distribution of the meteoroids entering the atmosphere and to derive an improved estimate for the global influx of cosmic dust. We find that the particles responsible for injecting a large fraction of the ablated material into the Earth's upper atmosphere enter at relatively slow speeds and originate primarily from the Jupiter Family of Comets. The global mean Na influx is 17,200 ± 2800 atoms/cm2/s, which equals 298 ± 47 kg/d for the global input of Na vapor and 150 ± 38 t/d for the global influx of cosmic dust. The global mean Fe influx is 102,000 ± 18,000 atoms/cm2/s, which equals 4.29 ± 0.75 t/d for the global input of Fe vapor.

AB - The downward fluxes of Fe and Na, measured near the mesopause with the University of Colorado lidars near Boulder, and a chemical ablation model developed at the University of Leeds, are used to constrain the velocity/mass distribution of the meteoroids entering the atmosphere and to derive an improved estimate for the global influx of cosmic dust. We find that the particles responsible for injecting a large fraction of the ablated material into the Earth's upper atmosphere enter at relatively slow speeds and originate primarily from the Jupiter Family of Comets. The global mean Na influx is 17,200 ± 2800 atoms/cm2/s, which equals 298 ± 47 kg/d for the global input of Na vapor and 150 ± 38 t/d for the global influx of cosmic dust. The global mean Fe influx is 102,000 ± 18,000 atoms/cm2/s, which equals 4.29 ± 0.75 t/d for the global input of Fe vapor.

KW - Fe and Na lidars

KW - chemical ablation model

KW - cosmic dust

KW - global meteor influx

KW - velocity distribution of meteoroids

KW - vertical flux of constituent

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Measurements of the vertical fluxes of atomic Fe and Na at the mesopause: Implications for the velocity of cosmic dust entering the atmosphere

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