Meteoroid Streams Sculpt the Inner Zodiacal Cloud

J. R. Szalay; P. Pokorný; D. M. Malaspina; A. R. Poppe; Karl Battams; D. J. McComas

doi:10.3847/PSJ/adfb6f

Meteoroid Streams Sculpt the Inner Zodiacal Cloud

J. R. Szalay
, P. Pokorný
, D. M. Malaspina
, A. R. Poppe
, Karl Battams
, D. J. McComas

Astrophysical Sciences

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

1 Scopus citations

Abstract

The abundance of dust encountered by Parker Solar Probe in the inner zodiacal cloud exhibits persistent variability of ∼50% on timescales of its ∼100 day orbits. Spatial variations in the zodiacal cloud of ∼10⁵ km, comparable to meteoroid stream cross sections, can be related to temporal variations of ∼100 days that evolve via Poynting-Robertson drag. Such density modulations manifest as only a few percent variation in line-of-sight integrated brightness, making them challenging to detect via remote imaging. We discuss multiple possible source mechanisms for this variability and propose that the presence of dense meteoroid streams that intersect and collide with the zodiacal cloud can produce the observed small-scale density modulations. Cometary disruptions may be prominent in producing these streams that collisionally interact with the zodiacal cloud.

Original language	English (US)
Article number	221
Journal	Planetary Science Journal
Volume	6
Issue number	9
DOIs	https://doi.org/10.3847/PSJ/adfb6f
State	Published - Sep 1 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Geophysics
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science

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10.3847/PSJ/adfb6f

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title = "Meteoroid Streams Sculpt the Inner Zodiacal Cloud",

abstract = "The abundance of dust encountered by Parker Solar Probe in the inner zodiacal cloud exhibits persistent variability of ∼50\% on timescales of its ∼100 day orbits. Spatial variations in the zodiacal cloud of ∼105 km, comparable to meteoroid stream cross sections, can be related to temporal variations of ∼100 days that evolve via Poynting-Robertson drag. Such density modulations manifest as only a few percent variation in line-of-sight integrated brightness, making them challenging to detect via remote imaging. We discuss multiple possible source mechanisms for this variability and propose that the presence of dense meteoroid streams that intersect and collide with the zodiacal cloud can produce the observed small-scale density modulations. Cometary disruptions may be prominent in producing these streams that collisionally interact with the zodiacal cloud.",

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note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

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doi = "10.3847/PSJ/adfb6f",

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T1 - Meteoroid Streams Sculpt the Inner Zodiacal Cloud

AU - Szalay, J. R.

AU - Pokorný, P.

AU - Malaspina, D. M.

AU - Poppe, A. R.

AU - Battams, Karl

AU - McComas, D. J.

PY - 2025/9/1

Y1 - 2025/9/1

N2 - The abundance of dust encountered by Parker Solar Probe in the inner zodiacal cloud exhibits persistent variability of ∼50% on timescales of its ∼100 day orbits. Spatial variations in the zodiacal cloud of ∼105 km, comparable to meteoroid stream cross sections, can be related to temporal variations of ∼100 days that evolve via Poynting-Robertson drag. Such density modulations manifest as only a few percent variation in line-of-sight integrated brightness, making them challenging to detect via remote imaging. We discuss multiple possible source mechanisms for this variability and propose that the presence of dense meteoroid streams that intersect and collide with the zodiacal cloud can produce the observed small-scale density modulations. Cometary disruptions may be prominent in producing these streams that collisionally interact with the zodiacal cloud.

AB - The abundance of dust encountered by Parker Solar Probe in the inner zodiacal cloud exhibits persistent variability of ∼50% on timescales of its ∼100 day orbits. Spatial variations in the zodiacal cloud of ∼105 km, comparable to meteoroid stream cross sections, can be related to temporal variations of ∼100 days that evolve via Poynting-Robertson drag. Such density modulations manifest as only a few percent variation in line-of-sight integrated brightness, making them challenging to detect via remote imaging. We discuss multiple possible source mechanisms for this variability and propose that the presence of dense meteoroid streams that intersect and collide with the zodiacal cloud can produce the observed small-scale density modulations. Cometary disruptions may be prominent in producing these streams that collisionally interact with the zodiacal cloud.

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JO - Planetary Science Journal

JF - Planetary Science Journal

IS - 9

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ER -

Meteoroid Streams Sculpt the Inner Zodiacal Cloud

Abstract

All Science Journal Classification (ASJC) codes

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