Figure 1: Pg. Salimbeni on January 18, 2002 at 18:20 UT, seeing I Antoniadi scale; SCT 200 mm f/10 at 300x. H =4.18° over Ptolemaeus C= 5.89° .
A study about Ptolemaeus crater
Part II- on the Presence of Possible
Domes .
by Raffaello Lena, Piergiovanni
Salimbeni, Cristian Fattinnanzi, Giorgio Mengoli
Geologic Lunar Research group (GLR)
Introduction
A paper recently appeared in this Journal [1] proposed the presence
of possible domes in crater Ptolemaeus.
The problem with visualizing domes in Ptolemaeus is that they are emplaced
on a rolling plains material called the Cayley plains.
This undulating topography makes discerning buried craters from ordinary
reliefs rather difficult. By the way our hypothesis on the presence of
domes in Ptolemaeus was further suggested by the finding of domes
in the Ranger imagery [1-2].
To ascertain if other structures could be ascribed to lunar domes morphology
the Geologic Lunar Research group (GLR) set out to coordinate its team
of observers for the target date of january 18, 2002 and march 21, 2002.
Observations
Our group worked by using the Internet as a communication platform
in real time coordinating observing event.
Our observations are reported in Figures 1-7.
For each observations considered here, the local altitude of the Sun,
H, and its colongitude, C, were calculated with the Lunar Observer's Tool
kit software. From the shadow lenghts and the local solar altitude, the
heights of the features casting the shadows were also estimated with the
same software.
The agreement between visual observations and the corresponding images
is very good. The images provides further evidence of these features which
are difficult to discern in different lighting conditions. The reported
dome-like features (Table 1) appear to be hemispherical, having a gentle
slope, but are lacking in other surface features on the top.
Discussion:
On the floor of Ptolemaeus there are several structures that
are not domes, as they have an irregular shape and major/minor axis ratios
of greater than 2. These are likely hummocky terrain or subdued crater
walls due to the Imbrium ejecta inundation. However, the numbered features
are all of dome like morphology, and have major/minor axis ratios of less
than 2. Their positions and diameters are identified in table
1.
Table 1
Feature Eta
Xi latitude(°)
longitude(°) Diameter Km
1
-0.1540 -0.0579
-8.86
-3.00
5
2
-0.1525 -0.0517
-8.77
-3.36
6
3
-0.1590 -0.0599
-9.15
-3.48
4
4
-0.1530 -0.0619
-8.80
-3.59
4
Using our available images we estimate for features 1-2 a height at
about 100 meters.
These features are of low height and angle of inclination, making them
difficult to identify when distant from the terminator.
Their morphology is in agreement (as best we can tell) with the
Westfall criteria [3].
More observations of these structures are needed to study
their origin. This report also demonstrates that lunar domes are difficult
features for the lunar observer. They require extreme patience and specific
conditions of lunar solar altitude.
Our hypothesis on the presence of possible domes is further suggested
by the finding of domes in Ptolemaeus in the Ranger imagery [1-2].
It could be a definite indication that, at some time in its geologic
history, the crater Ptolemaeus was an area where the intruding lavas
found release to the surface.
Acknowledgments:
The authors gratefully acknowledge M. Cicognani and F. Padulosi
for their contribution to this paper.
References:
[1] Lena R., Salimbeni Pg., Douglass E., Santacana G., On the
presence of possible domes in Ptolemaeus: a preliminary report. Selenology,
vol 20, n.3, 2001.
[2] Ranger IX Photographs of the Moon. NASA SP-112. U.S. Government
Printing Office: Washington, 1966.
[3] Westfall J., A generic classification of lunar domes. JALPO, 18,
1964.
Captions to figures:
Figure 1: Pg. Salimbeni on January 18, 2002 at 18:20 UT,
seeing I Antoniadi scale; SCT 200 mm f/10 at 300x. H =4.18° over
Ptolemaeus C= 5.89° .
Figure 2: R. Lena on January 18, 2002 at 18:40 UT, seeing II-III
Antoniadi scale; SCT 250 mm f/10 at 250x. H =4.35° over Ptolemaeus
C= 6.07° .
Figure 3: M. Cicognani on August 26, 2001 at 19:30 UT, seeing
III Antoniadi scale; Cassegrain 410 mm f/17 at 284x. H =2.26°
over Ptolemaeus C= 4.31° .
Figure 4: G.Mengoli , on March 21, 2002 at 18:00 UT, seeing III
Antoniadi scale; SCT 250 mm f/10 CCD Starlight Xpress HX5,
software AstroArt v2.0 (media-highPass-LowPass). H =2.14°
over Ptolemaeus C= 3.72° .
Figure 5: C. Fattinnanzi , on March 21, 2002 at 18:40 UT, seeing
III Antoniadi scale. Newton 200 mm f/6 and webcam Vesta .
H =2.47° over Ptolemaeus C= 4.06° .
Figure 6: C. Fattinnanzi , as preceding image.
Figure 7: R. Lena on March 21, 2002 at 20:30 UT , seeing III
Antoniadi scale. Refractor 10 cm f/15 at 250x. H =3.48° over
Ptolemaeus C=5.08 ° .