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Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between Modeling and Observations Lunar & Planetary Inst., Houston, 9 Feb. 2003
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Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Jan 03, 2016

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Page 1: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Cratering on Small Bodies: Lessons from Eros

Cratering on Small Bodies: Lessons from Eros

Clark R. ChapmanClark R. Chapman

Southwest Research Institute Boulder, Colorado, USA

Impact Cratering: Bridging the Gap

between Modeling and Observations

Lunar & Planetary Inst., Houston, 9 Feb. 2003

Page 2: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Goals of Studying Cratering on Eros

Chief goal of cratering specialists: study moderate-scale cratering on a nearly gravitationless body

Some of my goals: Determine projectile population size-distribution in main

asteroid belt (where Eros lived most of its life) Determine “cratering age” of Eros

How old Eros is since its creation as an independent body or since its last global resurfacing event

Evidence (at high res) indicating its duration in near-Earth orbit Understand ejecta/secondary cratering processes Understand regolith evolution on a small body Learn (from surface expression) about interior of Eros

Planetary craters provide an historical record. We must understand not only their formation but also their degradation and ancillary processes (e.g. secondary cratering).

Planetary craters provide an historical record. We must understand not only their formation but also their degradation and ancillary processes (e.g. secondary cratering).

Page 3: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Eros in Context of Asteroids Imaged by Spacecraft

Eros is typical in size, though an Earth-approacher

All are S-types, except C-type Mathilde; Mathilde’s unique giant craters are probably due to its high porosity/low density

Angular Gaspra has low crater density, perhaps due to metallic composition

Craters similar on Eros & Ida

MathildeMathilde

GaspraGaspra

IdaIda

ErosEros

Page 4: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Some Aspects of the Larger Craters on Eros

Two of largest craters (Himeros and Psyche) are large relative to the width of Eros

Compressive ridge extends around to other side of Eros

Bowl-shaped Psyche has markedly different shape from youngest large crater (Shoemaker, not shown here)

Bright/dark interior slopes indicate downslope slippage, unusual space weathering

Page 5: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Eros’ Surface from Low Orbit

Page 6: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

“Ponds” from Low-Altitude Flyover

Page 7: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

NEAR-Shoemaker’s Landing Spot on Eros

How typical is the edge of Himeros of Eros?How typical is the edge of Himeros of Eros?

How typical is Eros of other asteroids?How typical is Eros of other asteroids?

Inset shows Himeros

Estimated positions of last images end within a 50 meter diameter crater

Page 8: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Fifth Last Image (largest boulders are 3 meters across)

Page 9: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Eros is Covered with Rocks

Page 10: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Final Landing Mosaic

Page 11: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Closest Image of Eros

Page 12: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

“Ponds” and “Beaches”?

“Ponds” are flat, level, and are sharply bounded

“Beaches” (not always seen) surround some ponds and are relatively lacking in either craters or boulders

Although stratigraphically younger, ponds may have more small craters than typical terrains, suggesting that boulders may armor crater production

How are they formed? Electrostatic levitation, seismic shaking? If mass-wasting, why don’t lunar ponds exist?

“Ponds” are flat, level, and are sharply bounded

“Beaches” (not always seen) surround some ponds and are relatively lacking in either craters or boulders

Although stratigraphically younger, ponds may have more small craters than typical terrains, suggesting that boulders may armor crater production

How are they formed? Electrostatic levitation, seismic shaking? If mass-wasting, why don’t lunar ponds exist?

Page 13: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

The Relative Plot (R-Plot)

Shows spatial densities of craters as function of size relative to saturation

Page 14: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

R-Plot: Eros Craters & Boulders

Page 15: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Eros R-Plot (annotated)

Page 16: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Eros is NOT Like the Moon!

The Moon has craters.

Eros has rocks.

Page 17: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Summary of Population Estimates

0

1

2

3

4

5

6

7

8

9

10

1015202530

0.01 0.1 1 10-1

0

1

2

3

4

5

6

7

8

Harris (this paper)D'Abramo et al. (LINEAR 00-01)Discovered as of July 2002Werner et al. 2001 (p

V = 0.25)

Werner et al. 2001 (pV = 0.11)

Constant power lawBottke et al. 2001Stuart 2001 (LINEAR)Rabinowitz et al. 2000 (NEAT)Rabinowitz et al. 2000 (SW)

file: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\xxx.outfile: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\fig3h.plt

file: d:\nea\ast3\fig3h.pltfile: d:\nea\ast3\fig3h.pltfile: d:\nea\ast3\pop.plt

file: d:\nea\ast3\pop.pltfile: d:\nea\ast3\pop.plt

file: d:\nea\ast3\pop.pltfile: d:\nea\ast3\pop.plt

file: d:\nea\ast3\pop.pltfile: d:\nea\ast3\pop.pltfile: d:\nea\ast3\pop.outfile: d:\nea\ast3\pop.pltfile: d:\nea\ast3\werner.pltfile: d:\nea\ast3\werner.pltfile: d:\nea\ast3\werner.bakfile: d:\nea\ast3\werner.dat

Absolute Magnitude H

Lo

g[N

(<H

)]

Lo

g[I

mp

act

in

terv

al,

ye

ars

]

Diameter, km

Summary of NEA Population Estimates (A. W. Harris, 2002)

Page 18: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Why is Eros so Different from the Moon at Small Scales?

Covering-up by mass-wasting, seismic shaking, ejecta blanketing -- doesn’t work: boulders would be covered, too. Unless...Shoemaker crater formed “yesterday”!

Armoring by boulders: impactors strike but few craters are formed -- probably explains factor of 3…we need orders of magnitude (note: few craters in ponds).

Yarkovsky Effect (meteorite-sized bodies depleted from asteroid belt, some delivered to Earth) -- hasn’t worked quantitatively, yet.

???

???

Page 19: Cratering on Small Bodies: Lessons from Eros Clark R. Chapman Southwest Research Institute Boulder, Colorado, USA Impact Cratering: Bridging the Gap between.

Final Comment...

Cratering on asteroids is unexpectedly weird and variedCratering on asteroids is unexpectedly weird and varied