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<div id="content_view" class="wiki" style="display: block">
 
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=Reiner Gamma=
 
=Reiner Gamma=
''(Tier 2 [/Cx35 Region of Interest] for Constellation Program)''<br /> <br />  
+
''(Tier 2 [[Cx35|Region of Interest]] for Constellation Program)''<br /> <br />  
 
==Official NASA Overview==
 
==Official NASA Overview==
 
[[Image:ROI_-_Reiner_Gamma.JPG|ROI_-_Reiner_Gamma.JPG]]<br /> ''source: NASA [http://ser.sese.asu.edu/LSM/files/Cx-LROC-Tier2-FINAL.pdf Cx-LROC Tier 2 Targets] (PDF); see expanded details below''<br /> <div id="toc">
 
[[Image:ROI_-_Reiner_Gamma.JPG|ROI_-_Reiner_Gamma.JPG]]<br /> ''source: NASA [http://ser.sese.asu.edu/LSM/files/Cx-LROC-Tier2-FINAL.pdf Cx-LROC Tier 2 Targets] (PDF); see expanded details below''<br /> <div id="toc">
=Table of Contents=
+
 
<div style="margin-left: 1em">[#Reiner Gamma Reiner Gamma]</div><div style="margin-left: 2em">[#Reiner Gamma-Official NASA Overview Official NASA Overview]</div><div style="margin-left: 2em">[#Reiner Gamma-Scientific Rationale Scientific Rationale]</div><div style="margin-left: 2em">[#Reiner Gamma-NASA References NASA References]</div><div style="margin-left: 2em">[#Reiner Gamma-Additional Information Additional Information]</div><div style="margin-left: 2em">[#Reiner Gamma-LROC Links LROC Links]</div><div style="margin-left: 2em">[#Reiner Gamma-LPOD Articles LPOD Articles]</div><div style="margin-left: 2em">[#Reiner Gamma-General Bibliography General Bibliography]</div></div>
 
 
==Scientific Rationale==
 
==Scientific Rationale==
  The [/Reiner%20Gamma Reiner Gamma Formation] (RGF) is just one of several, swirl-like markings that can be found on the lunar surface. Located some 117 km west of [/Reiner Reiner] crater, the main oval shape measures approximately 40 km x 20 km, with a tail-extension further eastwards measuring about ~ 40 km. Other swirl-like markings associated close to the oval's tail-like region extend in a north-eastward's direction by about ~ 135 km, while from the head-like region, they measure some ~ 200 km in a south-westward's direction.<br /> <br /> '''Magnetic, cometary or electrical?'''<br />  In 1972, two small [http://history.nasa.gov/SP-4029/Apollo_18-36_Lunar_Subsatellite.htm sub-satellites] that orbited the Moon (originally released by Apollo's 15 and 16 in 1971 and 1972 respectively) unexpectedly discovered that the swirl was highly magnetised. But what was causing it, and also with subsequent, other swirl-like markings on the Moon later discovered to have concentrated magnetic fields around them to behave this way? One main hypothesis proposed that the concentration of magnetic fields is generally due to the blast created from impactors striking the lunar surface at anti-podal points to the swirl locations: causing electrically-conducted gas to converge global magnetic fields there. As the Moon's early core then cooled, and the global magnetic field faded over time, concentrated magnetism at the swirls remained as we see them today. While the hypothesis may be applicable as to why other swirl-like regions on the Moon have associated impact points anti-podal to them (as well as having optically-mature material in their surrounds), the RGF appears to have neither characteristic.<br /> <br />  Whatever the cause as to why Reiner Gamma physically formed, the existance of the highly concentrated magnetic fields may be responsible for its unusual appearance. Results from the Japanese [http://www.selene.jaxa.jp/index_e.htm Kaguya/Selene] spacecraft support the hypothesis that such fields can slow down and deflect ions in the solar wind flux - known to darken the lunar soil, while earth-based telescopic and [http://www.lpi.usra.edu/expmoon/clementine/clementine.html Clementine] multispectral data point to the area having quite an immature make-up (age for its emplacement could be quite recent). Ions constantly bombard the lunar surface globally, however, the pre-existing magnetic fields around Reiner Gamma could thus be preserving the high-albedo material at certain lines, and, moreover, may be behaving like mini-magnetospheres - as discovered recently in data from the Indian [http://www.chandrayaan-i.com/index.php Chandrayaan-1] mission (see Wieser ''et al'' below in Bibliography). Both instances would allow for focusing of 'over' and 'under' maturation processes of the local soil: for example, in the dark lanes and bright regions seen - the effects of which could continually be maintaining its appearance since it formed.<br /> <br />  An alternative hypothesis for the RGF, however, may be due to more recent cometary impacts or meteorite swarm encounters that 'scoured' (surficial mass removal) away the topmost surface layers. These instantly produced a fresh, more immature content to mix with the target soil, leaving their unconsolidated, high-albedo material to 'shine' through. This hypothesis may also be responsible for the magnetic fields detected by above missions as overheating effects; due to the initial impactors smashing into the topmost layer, and their ability to make the local material magnetised. If this is correct, then the magnetic fields are continually protecting, and shielding, the fresh cometary/meteorite material from becoming darkend (aka: mini-magnetospheres, focusing processes mentioned above).<br /> <br />  One final, more recent, hypothesis (see Garrick-Bethell 2010 below in Bibliography) involves the effect of inferred electrical fields - existing alongside the magnetic fields - on dust-lofting of material in the region. This mechanism involves raising and movement of fine-grained, feldspathic, highland material above the surface as it becomes positively (negatively) charged - particularly at terminator times; allowing its dusty make-up to produce darker regions where the net electrical field value is zero and brighter regions where they are not.<br /> <br />  The real mechanism behind such swirl-like formations, however, is thus very complex, but one certainty about them all is that they overprint the topography they lie on. Is this an indication, perhaps, that they might be quite thin, or, are they the result of deeper surface interactions with normal processes within a region that isn't quite fully understood? In either scenario, however, swirl-like apparitions that occur on both the maria (generally characterised by high-albedo, complex markings) and the highlands (seen as simpler shapes such as loops or bright spots) are areas that will benefit from future missions - robotic or manned. The [/RoI%20-%20Reiner%20Gamma Reiner Gamma ROI] region thus has the potential to answer questions about space weathering, maturity of soils, origin of magnetic (or mini-magnetospheric) anomalies, solar wind conditions, and areas where posible future lunar bases may be set up in these 'unique' locations.<span class="membersnap">- [http://www.wikispaces.com/user/view/JohnMoore2 [[Image:JohnMoore2-lg.jpg|16px|JohnMoore2]]] [http://www.wikispaces.com/user/view/JohnMoore2 JohnMoore2]</span><br /> <br />  
+
  The [[Reiner%20Gamma|Reiner Gamma Formation]] (RGF) is just one of several, swirl-like markings that can be found on the lunar surface. Located some 117 km west of [[Reiner|Reiner]] crater, the main oval shape measures approximately 40 km x 20 km, with a tail-extension further eastwards measuring about ~ 40 km. Other swirl-like markings associated close to the oval's tail-like region extend in a north-eastward's direction by about ~ 135 km, while from the head-like region, they measure some ~ 200 km in a south-westward's direction.<br /> <br /> '''Magnetic, cometary or electrical?'''<br />  In 1972, two small [http://history.nasa.gov/SP-4029/Apollo_18-36_Lunar_Subsatellite.htm sub-satellites] that orbited the Moon (originally released by Apollo's 15 and 16 in 1971 and 1972 respectively) unexpectedly discovered that the swirl was highly magnetised. But what was causing it, and also with subsequent, other swirl-like markings on the Moon later discovered to have concentrated magnetic fields around them to behave this way? One main hypothesis proposed that the concentration of magnetic fields is generally due to the blast created from impactors striking the lunar surface at anti-podal points to the swirl locations: causing electrically-conducted gas to converge global magnetic fields there. As the Moon's early core then cooled, and the global magnetic field faded over time, concentrated magnetism at the swirls remained as we see them today. While the hypothesis may be applicable as to why other swirl-like regions on the Moon have associated impact points anti-podal to them (as well as having optically-mature material in their surrounds), the RGF appears to have neither characteristic.<br /> <br />  Whatever the cause as to why Reiner Gamma physically formed, the existance of the highly concentrated magnetic fields may be responsible for its unusual appearance. Results from the Japanese [http://www.selene.jaxa.jp/index_e.htm Kaguya/Selene] spacecraft support the hypothesis that such fields can slow down and deflect ions in the solar wind flux - known to darken the lunar soil, while earth-based telescopic and [http://www.lpi.usra.edu/expmoon/clementine/clementine.html Clementine] multispectral data point to the area having quite an immature make-up (age for its emplacement could be quite recent). Ions constantly bombard the lunar surface globally, however, the pre-existing magnetic fields around Reiner Gamma could thus be preserving the high-albedo material at certain lines, and, moreover, may be behaving like mini-magnetospheres - as discovered recently in data from the Indian [http://www.chandrayaan-i.com/index.php Chandrayaan-1] mission (see Wieser ''et al'' below in Bibliography). Both instances would allow for focusing of 'over' and 'under' maturation processes of the local soil: for example, in the dark lanes and bright regions seen - the effects of which could continually be maintaining its appearance since it formed.<br /> <br />  An alternative hypothesis for the RGF, however, may be due to more recent cometary impacts or meteorite swarm encounters that 'scoured' (surficial mass removal) away the topmost surface layers. These instantly produced a fresh, more immature content to mix with the target soil, leaving their unconsolidated, high-albedo material to 'shine' through. This hypothesis may also be responsible for the magnetic fields detected by above missions as overheating effects; due to the initial impactors smashing into the topmost layer, and their ability to make the local material magnetised. If this is correct, then the magnetic fields are continually protecting, and shielding, the fresh cometary/meteorite material from becoming darkend (aka: mini-magnetospheres, focusing processes mentioned above).<br /> <br />  One final, more recent, hypothesis (see Garrick-Bethell 2010 below in Bibliography) involves the effect of inferred electrical fields - existing alongside the magnetic fields - on dust-lofting of material in the region. This mechanism involves raising and movement of fine-grained, feldspathic, highland material above the surface as it becomes positively (negatively) charged - particularly at terminator times; allowing its dusty make-up to produce darker regions where the net electrical field value is zero and brighter regions where they are not.<br /> <br />  The real mechanism behind such swirl-like formations, however, is thus very complex, but one certainty about them all is that they overprint the topography they lie on. Is this an indication, perhaps, that they might be quite thin, or, are they the result of deeper surface interactions with normal processes within a region that isn't quite fully understood? In either scenario, however, swirl-like apparitions that occur on both the maria (generally characterised by high-albedo, complex markings) and the highlands (seen as simpler shapes such as loops or bright spots) are areas that will benefit from future missions - robotic or manned. The [[RoI%20-%20Reiner%20Gamma|Reiner Gamma ROI]] region thus has the potential to answer questions about space weathering, maturity of soils, origin of magnetic (or mini-magnetospheric) anomalies, solar wind conditions, and areas where posible future lunar bases may be set up in these 'unique' locations.<span class="membersnap">- JohnMoore2</span><br /> <br />  
 
==NASA References==
 
==NASA References==
 
* [http://www.nss.org/settlement/moon/library/1990-GeoscienceAndALunarBase.pdf Geoscience and a Lunar Base (1990) -- A Comprehensive Plan for Lunar Exploration] -- Proceedings of a workshop sponsored by NASA, and held at the Lunar and Planetary Institute, Houston, Texas, August 25-26, 1988.
 
* [http://www.nss.org/settlement/moon/library/1990-GeoscienceAndALunarBase.pdf Geoscience and a Lunar Base (1990) -- A Comprehensive Plan for Lunar Exploration] -- Proceedings of a workshop sponsored by NASA, and held at the Lunar and Planetary Institute, Houston, Texas, August 25-26, 1988.
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{| class="wiki_table"
 
{| class="wiki_table"
 
|
 
|
[http://the-moon.wikispaces.com/file/detail/reiner-gamma-large.jpg [[Image:reiner-gamma-small.jpg|reiner-gamma-small.jpg]]]<br />
+
[http://the-moon.us/wiki/file/detail/reiner-gamma-large.jpg [[Image:Reiner-gamma-small.jpg|reiner-gamma-small.jpg]]]<br />
 
|
 
|
[http://lroc.sese.asu.edu/news/uploads/LROCiotw/M117874527ME.bwmos.crop.png [[Image:reinergamma-small.jpg|reinergamma-small.jpg]]]<br />
+
[http://lroc.sese.asu.edu/news/uploads/LROCiotw/M117874527ME.bwmos.crop.png [[Image:Reinergamma-small.jpg|reinergamma-small.jpg]]]<br />
 
|
 
|
 
'''Left:''' [http://www.mapaplanet.org/explorer-bin/explorer.cgi?map=Moon&layers=moon_clementine_multi&info=NO&advoption=NO&sizeSelector=imageSize&lines=724&samples=1440&Resolution=23.2258064516129&r=5&g=3&b=1&projection=SIMP&grid=none&stretch=auto&north=-0.09&south=15.46&west=286.20&east=317.20&center_lat=0&center=301.7&defaultcenter=on Clementine UV-VIS Multispectral] image from [http://www.mapaplanet.org Map-A-Planet].<br /> '''Middle:''' Adapted image from [http://www.lpi.usra.edu/meetings/lpsc2007/pdf/1232.pdf Blewett Paper].<br /> '''Right:''' Wide Angle Camera (WAC) view -- M117874527M from [http://lroc.sese.asu.edu/index.html LROC].<br /> ''Click images for larger view''<br />
 
'''Left:''' [http://www.mapaplanet.org/explorer-bin/explorer.cgi?map=Moon&layers=moon_clementine_multi&info=NO&advoption=NO&sizeSelector=imageSize&lines=724&samples=1440&Resolution=23.2258064516129&r=5&g=3&b=1&projection=SIMP&grid=none&stretch=auto&north=-0.09&south=15.46&west=286.20&east=317.20&center_lat=0&center=301.7&defaultcenter=on Clementine UV-VIS Multispectral] image from [http://www.mapaplanet.org Map-A-Planet].<br /> '''Middle:''' Adapted image from [http://www.lpi.usra.edu/meetings/lpsc2007/pdf/1232.pdf Blewett Paper].<br /> '''Right:''' Wide Angle Camera (WAC) view -- M117874527M from [http://lroc.sese.asu.edu/index.html LROC].<br /> ''Click images for larger view''<br />
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  Strong magnetic anomlous lunar regions:<br />  
 
  Strong magnetic anomlous lunar regions:<br />  
  
* Area around [/Descartes Descartes] mountains ~ south-east of Apollo 16 represents one of the strongest, single magnetic anomalies on the nearside (having, as well, unusually high-albedo markings).
+
* Area around [[Descartes|Descartes]] mountains ~ south-east of Apollo 16 represents one of the strongest, single magnetic anomalies on the nearside (having, as well, unusually high-albedo markings).
* North-west periphery of [/South%20Pole-Aitken%20Basin SPA] basin (antipodal to [/Imbrium%2C%20Mare Imbrium] and [/Mare%20Serenitatis Serenitatis]).
+
* North-west periphery of [[South%20Pole-Aitken%20Basin|SPA]] basin (antipodal to [[Imbrium%2C%20Mare|Imbrium]] and [[Mare%20Serenitatis|Serenitatis]]).
* Within [/Mare%20Ingenii Mare Ingenii] (near the [/Imbrium%2C%20Mare Imbrium] antipode).
+
* Within [[Mare%20Ingenii|Mare Ingenii]] (near the [[Imbrium%2C%20Mare|Imbrium]] antipode).
* East of [/Mare%20Marginis Mare Marginis] (near the [/Mare%20Orientale Orientale] antipode) on the farside.
+
* East of [[Mare%20Marginis|Mare Marginis]] (near the [[Mare%20Orientale|Orientale]] antipode) on the farside.
* See also [/swirl High Albedo Swirls on the Moon's Surface]
+
* See also [[swirl|High Albedo Swirls on the Moon's Surface]]
 
* IAU page [http://planetarynames.wr.usgs.gov/Feature/4987 Reiner Gamma]
 
* IAU page [http://planetarynames.wr.usgs.gov/Feature/4987 Reiner Gamma]
 
<br />  
 
<br />  
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<br /> <br />
 
<br /> <br />
 
----
 
----
<br />  This page has been edited 1 times. The last modification was made by <span class="membersnap">- [http://www.wikispaces.com/user/view/tychocrater [[Image:tychocrater-lg.jpg|16px|tychocrater]]] [http://www.wikispaces.com/user/view/tychocrater tychocrater]</span> on Jun 13, 2009 3:24 pm</div>
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Latest revision as of 20:33, 16 April 2018

Reiner Gamma

(Tier 2 Region of Interest for Constellation Program)

Official NASA Overview

ROI_-_Reiner_Gamma.JPG
source: NASA Cx-LROC Tier 2 Targets (PDF); see expanded details below

Scientific Rationale

The Reiner Gamma Formation (RGF) is just one of several, swirl-like markings that can be found on the lunar surface. Located some 117 km west of Reiner crater, the main oval shape measures approximately 40 km x 20 km, with a tail-extension further eastwards measuring about ~ 40 km. Other swirl-like markings associated close to the oval's tail-like region extend in a north-eastward's direction by about ~ 135 km, while from the head-like region, they measure some ~ 200 km in a south-westward's direction.

Magnetic, cometary or electrical?
In 1972, two small sub-satellites that orbited the Moon (originally released by Apollo's 15 and 16 in 1971 and 1972 respectively) unexpectedly discovered that the swirl was highly magnetised. But what was causing it, and also with subsequent, other swirl-like markings on the Moon later discovered to have concentrated magnetic fields around them to behave this way? One main hypothesis proposed that the concentration of magnetic fields is generally due to the blast created from impactors striking the lunar surface at anti-podal points to the swirl locations: causing electrically-conducted gas to converge global magnetic fields there. As the Moon's early core then cooled, and the global magnetic field faded over time, concentrated magnetism at the swirls remained as we see them today. While the hypothesis may be applicable as to why other swirl-like regions on the Moon have associated impact points anti-podal to them (as well as having optically-mature material in their surrounds), the RGF appears to have neither characteristic.

Whatever the cause as to why Reiner Gamma physically formed, the existance of the highly concentrated magnetic fields may be responsible for its unusual appearance. Results from the Japanese Kaguya/Selene spacecraft support the hypothesis that such fields can slow down and deflect ions in the solar wind flux - known to darken the lunar soil, while earth-based telescopic and Clementine multispectral data point to the area having quite an immature make-up (age for its emplacement could be quite recent). Ions constantly bombard the lunar surface globally, however, the pre-existing magnetic fields around Reiner Gamma could thus be preserving the high-albedo material at certain lines, and, moreover, may be behaving like mini-magnetospheres - as discovered recently in data from the Indian Chandrayaan-1 mission (see Wieser et al below in Bibliography). Both instances would allow for focusing of 'over' and 'under' maturation processes of the local soil: for example, in the dark lanes and bright regions seen - the effects of which could continually be maintaining its appearance since it formed.

An alternative hypothesis for the RGF, however, may be due to more recent cometary impacts or meteorite swarm encounters that 'scoured' (surficial mass removal) away the topmost surface layers. These instantly produced a fresh, more immature content to mix with the target soil, leaving their unconsolidated, high-albedo material to 'shine' through. This hypothesis may also be responsible for the magnetic fields detected by above missions as overheating effects; due to the initial impactors smashing into the topmost layer, and their ability to make the local material magnetised. If this is correct, then the magnetic fields are continually protecting, and shielding, the fresh cometary/meteorite material from becoming darkend (aka: mini-magnetospheres, focusing processes mentioned above).

One final, more recent, hypothesis (see Garrick-Bethell 2010 below in Bibliography) involves the effect of inferred electrical fields - existing alongside the magnetic fields - on dust-lofting of material in the region. This mechanism involves raising and movement of fine-grained, feldspathic, highland material above the surface as it becomes positively (negatively) charged - particularly at terminator times; allowing its dusty make-up to produce darker regions where the net electrical field value is zero and brighter regions where they are not.

The real mechanism behind such swirl-like formations, however, is thus very complex, but one certainty about them all is that they overprint the topography they lie on. Is this an indication, perhaps, that they might be quite thin, or, are they the result of deeper surface interactions with normal processes within a region that isn't quite fully understood? In either scenario, however, swirl-like apparitions that occur on both the maria (generally characterised by high-albedo, complex markings) and the highlands (seen as simpler shapes such as loops or bright spots) are areas that will benefit from future missions - robotic or manned. The Reiner Gamma ROI region thus has the potential to answer questions about space weathering, maturity of soils, origin of magnetic (or mini-magnetospheric) anomalies, solar wind conditions, and areas where posible future lunar bases may be set up in these 'unique' locations.- JohnMoore2

NASA References


reiner-gamma-small.jpg

reinergamma-small.jpg

Left: Clementine UV-VIS Multispectral image from Map-A-Planet.
Middle: Adapted image from Blewett Paper.
Right: Wide Angle Camera (WAC) view -- M117874527M from LROC.
Click images for larger view


Additional Information

Strong magnetic anomlous lunar regions:


LROC Links


LPOD Articles

No Difference in Rays, Brightness at Noon.

General Bibliography