Marsbugs: The Electronic Astrobiology Newsletter
Volume 12, Number 23, 1 July 2005

Editor/Publisher: David J. Thomas, Ph.D., Science Division, Lyon College, Batesville, Arkansas 72503-2317, USA.  dthomas@lyon.edu

Marsbugs is published on a weekly to monthly basis as warranted by the 
number of articles and announcements.  Copyright of this compilation 
exists with the editor, but individual authors retain the copyright of 
specific articles.  Opinions expressed in this newsletter are those of the 
authors, and are not necessarily endorsed by the editor or by Lyon 
College.  E-mail subscriptions are free, and may be obtained by contacting 
the editor.  Information concerning the scope of this newsletter, 
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http://www.lyon.edu/projects/marsbugs.  The editor does not condone 
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not send unsolicited e-mail using the Marsbugs mailing lists.  Persons who 
have information that may be of interest to subscribers of Marsbugs should 
send that information to the editor.
__________________________________________________________________________

Articles and News

1)	SCIENTIST REFINES COSMIC CLOCK TO DETERMINE AGE OF MILKY WAY 
      University of Chicago release

2)	PLANETS CAN SURVIVE A RED GIANT 
      By Chad Boutin

3)	NASA RESEARCHERS DISCOVER PLANET WITH LARGEST SOLID CORE
      NASA release 05-169

4)	MARS IN POP CULTURE: RADIO
      By David Catling

5)	THE BERRIES SUGGEST LIFE ON MARS
      By Alexander Zeltsman

Announcements

6)	15TH WESTERN PHOTOSYNTHESIS CONFERENCE--1ST ANNOUNCEMENT
      By David J. Thomas

7)	NASA'S CASSINI--ONE YEAR IN PICTURES
      NASA/JPL release

Mission Reports

8)	MARS GLOBAL SURVEYOR IMAGES
      NASA/JPL/MSSS release

9)	NASA'S DEEP IMPACT SPACECRAFT PREPS FOR JULY 4 FIREWORKS 
      NASA release 05-172

10)	MARS RECONNAISSANCE ORBITER UPDATE
      NASA expendable launch vehicle status report e05-005
__________________________________________________________________________

SCIENTIST REFINES COSMIC CLOCK TO DETERMINE AGE OF MILKY WAY 
University of Chicago release
22 June 2005

The University of Chicago's Nicolas Dauphas has developed a new way to 
calculate the age of the Milky Way that is free of the unvalidated 
assumptions that have plagued previous methods.  Dauphas' method, which he 
reports in the June 29 issue of the journal, Nature, now can be used to 
tackle other mysteries of the cosmos that have remained unsolved for 
decades.  

"Age determinations are crucial to a fundamental understanding of the 
universe," said Thomas Rauscher, an assistant professor of physics and 
astronomy at the University of Basel in Switzerland.  "The wide range of 
implications is what makes Nicolas' work so exciting and important." 

Dauphas, an Assistant Professor in Geophysical Sciences, operates the 
Origins Laboratory at the University of Chicago.  His wide-ranging 
interests include the origins of Earth's atmosphere, the oldest rocks that 
may contain evidence for life on Earth and what meteorites reveal about 
the formation of the solar system.  

In his latest work, Dauphas has honed the accuracy of the cosmic clock by 
comparing the decay of two long-lived radioactive elements, uranium-238 
and thorium-232.  According to Dauphas' new method, the age of the Milky 
Way is approximately 14.5 billion years, plus or minus more than 2 billion 
years.  That age generally agrees with the estimate of 12.2 billion years-
-nearly as old as the universe itself--as determined by previously 
existing methods.  

Dauphas' finding verifies what was already suspected, despite the 
drawbacks of existing methods: "After the big bang, it did not take much 
time for large structures to form, including our Milky Way galaxy," he 
said.  

The age of 12 billion years for the galaxy relied on the characteristics 
of two different sets of stars, globular clusters and white dwarfs.  But 
this estimate depends on assumptions about stellar evolution and nuclear 
physics that scientists have yet to substantiate to their complete 
satisfaction.  Globular clusters are clusters of stars that exist on the 
outskirts of a galaxy.  The processes of stellar evolution suggested that 
most of the stars in globular clusters are nearly as old as the galaxy 
itself.  When the big bang occurred 13.7 billion years ago, the only 
elements in the universe were hydrogen, helium and a small quantity of 
lithium.  The Milky Way's globular clusters have to be nearly that old 
because they contain mostly hydrogen and helium.  Younger stars contain 
heavier elements that were recycled from the remains of older stars, which 
initially forged these heavier elements in their cores via nuclear fusion.  
White dwarf stars, meanwhile, are stars that have used up their fuel and 
have advanced to the last stage of their lives.  

"The white dwarf has no source of energy, so it just cools down.  If you 
look at its temperature and you know how fast it cools, then you can 
approximate the age of the galaxy, because some of these white dwarfs are 
about as old as the galaxy," Dauphas said.  

A more direct way to calculate the age of stars and the Milky Way depends 
on the accuracy of the uranium/thorium clock.  Scientists can 
telescopically detect the optical "fingerprints" of the chemical elements.  
Using this capability, they have measured the uranium/thorium ratio in a 
single old star that resides in the halo of the Milky Way.

Journal reference:
Nicolas Dauphas, 2005.  The U/Th production ratio and the age of the Milky 
Way from meteorites and galactic halo stars.  Nature, 435(7046):1203-1205, 
http://www.nature.com/nature/journal/v435/n7046/abs/nature03645.html.

Read the original news release at http://www-
news.uchicago.edu/releases/05/050629.milkyway.shtml.

Additional articles on this subject are available at:
http://spaceflightnow.com/news/n0506/29milkyway/
http://www.universetoday.com/am/publish/pinpoint_age_milky_way.html

__________________________________________________________________________

PLANETS CAN SURVIVE A RED GIANT 
By Chad Boutin
From Universe Today
29 June 2005

Our Sun is in the middle age of life, and that's a good thing for us here 
on Earth.  But in a few billion years, when the Sun runs out of hydrogen 
to fuel its massive fusion furnace, it will balloon into a massive red 
giant, engulfing the inner planets, including the Earth, before it shrinks 
again into a white dwarf.  Is that the end of our solar system?  Maybe 
not.  Although they might get a little (okay...  a lot) scorched, the 
outer planets might actually survive the experience in one piece.  German 
researchers have found the first planet orbiting a white dwarf star, so 
there appears there's a future for planets when their star becomes a red 
giant.

Read the full article at 
http://www.universetoday.com/am/publish/planets_survive_red_giant.html.
__________________________________________________________________________

NASA RESEARCHERS DISCOVER PLANET WITH LARGEST SOLID CORE
NASA release 05-169
30 June 2005

NASA researchers recently discovered the largest solid core ever found in 
an extrasolar planet, and their discovery confirms a planet formation 
theory.

"For theorists, the discovery of a planet with such a large core is as 
important as the discovery of the first extrasolar planet around the star 
51 Pegasi in 1995," said Shigeru Ida, theorist from the Tokyo Institute of 
Technology, Japan.

When a consortium of American, Japanese and Chilean astronomers first 
looked at this planet, they expected one similar to Jupiter.  "None of our 
models predicted that nature could make a planet like the one we are 
studying," said Bun'ei Sato, consortium member and postdoctoral fellow at 
Okayama Astrophysical Observatory, Japan.  

Scientists have rarely had opportunities like this to collect such solid 
evidence about planet formation.  More than 150 extrasolar planets have 
been discovered by observing changes in the speed of a star, as it moves 
toward and away from Earth.  The changes in speed are caused by the 
gravitational pull of planets.  

This planet also passes in front of its star and dims the starlight.  
"When that happens, we are able to calculate the physical size of the 
planet, whether it has a solid core, and even what its atmosphere is 
like," said Debra Fischer.  She is consortium team leader and professor of 
astronomy at San Francisco State University, CA.

The planet, orbiting the sun-like star HD 149026, is roughly equal in mass 
to Saturn, but it is significantly smaller in diameter.  It takes just 
2.87 days to circle its star, and the upper atmosphere temperature is 
approximately 2,000 degrees Fahrenheit.  Modeling of the planet's 
structure shows it has a solid core approximately 70 times Earth's mass.  
This is the first observational evidence that proves the "core accretion" 
theory about how planets are formed.  Scientists have two competing but 
viable theories about planet formation.

In the "gravitational instability" theory, planets form during a rapid 
collapse of a dense cloud.  With the "core accretion" theory, planets 
start as small rock-ice cores that grow as they gravitationally acquire 
additional mass.  Scientists believe the large, rocky core of this planet 
could not have formed by cloud collapse.  They think it must have grown a 
core first, and then acquired gas.  

"This is a confirmation of the core accretion theory for planet formation 
and evidence that planets of this kind should exist in abundance," said 
Greg Henry, an astronomer at Tennessee State University, Nashville.  He 
detected the dimming of the star by the planet with his robotic telescopes 
at Fairborn Observatory in Mount Hopkins, Arizona.

Support for this research came from NASA, the National Astronomical 
Observatory of Japan and the National Science Foundation.  A paper about 
this discovery was accepted for publication in the Astrophysical Journal.  
The paper, supporting materials and illustrations are available on the 
Internet at http://tauceti.sfsu.edu/n2k/.  For information about NASA and 
agency programs on the Internet, visit 
http://www.nasa.gov/home/index.html.

Contact:
Erica Hupp
NASA Headquarters, Washington, DC
Phone: 202-358-1237

Additional articles on this subject are available at:
http://www.astrobio.net/news/article1627.html
http://www.spacedaily.com/news/extrasolar-05zj.html
__________________________________________________________________________

MARS IN POP CULTURE: RADIO
By David Catling
From Astrobiology Magazine
1 July 2005

In the opening scene of the movie "Contact," radio waves take us on a 
journey beyond our solar system.  The farther away we travel, the older 
the broadcasts are, until beyond a certain distance the rock music dims, 
the radio dramas fade out, and the deep silence of space prevails.  It 
makes you wonder: while SETI is looking for alien radio signals from far-
off civilizations, how many aliens could be listening to our old radio 
broadcasts right now, and wondering what sort of civilization could 
produce such flights of fancy?

Radio may not be Earth's most popular entertainment medium anymore, but 
compared to the questionable special effects used in science fiction 
movies--especially the earlier ones--perhaps the movie house of the mind 
is still the best place to enjoy imaginative tales about aliens.  This 
overview looks at martians that have been riding the airwaves since 
radio's Golden Age.  

Radio versions of The War of the Worlds 

*On October 30th, 1938, Orson Welles became internationally famous, 
causing widespread panic in the U.S. by his broadcast of an adaptation by 
Howard Koch of H.G.  Wells's The War of The Worlds.  In the play, 
performed by The Mercury Theater, Martians landed at Grovers Mill, New 
Jersey, and a growing sense of impending doom was gradually built up 
through news bulletins and on-the-spot reporting.  Terror across the 
United States due to this radio show hinted at the growing power of 
electronic media to invade the public consciousness and create an 
artificial reality that could disrupt the real world of comparative calm.  
Orson Welles, of course, later went on to direct highly acclaimed films 
including Citizen Kane and The Magnificent Ambersons.  Howard Koch was 
later on the writer team for the movie Casablanca.

* The Lux Radio Theater did a radio version of the 1953 movie, with Dana 
Andrews playing the part of Gene Barry, and set in Los Angeles.  It's 
pretty silly, apparently.  

* Jeff Wayne's War of the Worlds (1978) is a musical version of the story, 
with Richard Burton (Justin Hayward) as the journalist narrator (singer).  
"Forever Autumn" by Justin Hayward (of the Moody Blues) was a big hit.  
The story harks back to the original and takes place in England.  Also 
stars David Essex.

* David Ossman and Judith Walcutt did a remake of the 1938 Howard Koch 
script for a 50th Anniversary production.  Made to sound like modern U.S. 
National Public Radio, with well-known American radio voices including 
Terry Gross, Scott Simon, and Douglas Edwards, essentially playing 
themselves.  Recorded on locations and mixed at Skywalker Ranch 
(Lucasfilm) studios.

* L.A. Theaterworks did a live production of the Howard Koch script in 
November of 1994 with some members of the Star Trek Next Generation cast 
in it, and starring Leonard Nimoy in the lead as Professor Pearson.

* A three-hour BBC production (broadcast in the U.S. on NPR Playhouse) of 
the original Wells story is also available.  As befits the BBC, it's a 
polished adaptation.

Other Martian Radio
 
* NBC radio's Dimension X and X Minus 1 were two radio series in the 1950s 
that featured stories by science fiction writers published in Astounding 
Fiction Magazine and Galaxy Magazine.  These were adapted for radio by 
scriptwriters George Lefferts and Ernest Kinoy, both of whom later wrote 
for various TV series.  Martian radio titles included "The Martian Death 
March," "The Martian Chronicles" (Ray Brabury), "Mars is Heaven" (Ray 
Bradbury), and "The Last Martian" (Fredric Brown).  Another story, 
"Martian Sam," was about a Martian who turned out to be an excellent 
baseball pitcher.  

Read the original article at 
http://www.astrobio.net/news/article1626.html.
__________________________________________________________________________

THE BERRIES SUGGEST LIFE ON MARS
By Alexander Zeltsman
1 July 2005

As soon as small spheres were observed on Mars, the name "berries" has 
occurred naturally to everyone.  At least for the particular colony of 
martian berries, a case can be made that it is not merely a matter of 
superficial resemblance.  The colony has been photographed on Mars by the 
Opportunity PANCAM on Sol 139.  The colony covers about 20 square meters 
or so.  

[Figure 1, Figure 2]
The two figures, above, represent an overview of patches, for which PANCAM 
stereo data are available [3].  The distance between the red markers is 
about 1 meter.

[Figure 3]
The figure, above, shows some samples of the colony population.

The color is an approximation, based on the color filter originals [1].
The berries of interest reside in general upon the surface of horizontal 
martian rock.  They are almost perfect spheres, sufficiently similar in 
color and size.  The colony members appear to be of similar origin and 
history, having been brought about by the sufficiently similar processes.

The berries are connected to the rocks, although the connection segment 
geometry varies substantially.  Some connection segments are not visible 
in the image at all, some look like a tail behind the berry, some look 
like a double tail, some look like massive growth or a thin stalk with 
berry in the air at end of it.

[Figure 4, Figure 5]
Above pictured are red-cyan anaglyph and a stereo pair of two berries [1], 
from 1P140530030EFF3182P2379L7M1, 1P140530030EFF3182P2379R1M1.

I suggest that the processes that created this berry colony were 
biological in nature.  A little detective work of elimination of the 
impossible is in order to prove it.  

Weathering and sandblasting rather destroy a stalked berry would than 
create it.  In the incredibly rare cases that it would be created by 
weathering and sandblasting, (a) the lifespan of such an object would be 
short, considering the level of weathering of Mars surface, and since its 
creation would depend on active erosion, capable of subsequently 
destroying it; (b) having a pair of such similar objects side by side, 
created by the weathering and sandblasting, defies the probability.

The geology could not have created the stalked berries either: (a) similar 
geological of water originated objects are not observed on Earth; (b) even 
if a stalked berry were created like diamonds from magma, there is no way 
it could reach surface, and then be exposed by erosion, without the stalk 
being destroyed in the process; (c) the symmetry of the berries with a 
bent stalk is different from the wind, gravity, air, water and the water 
flow symmetry; (d) the berry and its stalk could not have been created 
simultaneously, as the symmetry of the berry and of the stalk are totally 
different; (e) creation of the berries exclusively on the end of 
previously formed stalk,  is the most unlikely scenario, and it would not 
explain the downward gravity bent of the stalk--without assumption of its 
flexibility which is unheard of in the mineral world; (f) the growing 
stalk with a gravity bent, under the existing berry, is by far too complex 
without genetic program.

It is the most unlikely either, that the stalked berries are artificial 
objects: (a) they are not easy to make artificially; (b) usefulness of 
such an artificial object is questionable; (c) they are not the ones most 
likely to survive, so one would expect that a greater number of the better 
surviving, similar in size artificial objects would be observed on Mars, 
which manifestly is not the case.

At this point I must agree with words of Henry David Thoreau, "some 
circumstantial evidence is very strong, as when you find a trout in the 
milk."  The biological creation remains, as the only logically possible 
explanation of existence of the presented berry colony on Mars.  

However, to be fully convinced that what I have is the true explanation of 
facts, a thorough follow up is necessary--a follow up on the different 
levels and in different directions.  Presence of life on Mars, apparently 
detected by the visual image analysis [2], must be confirmed eventually in 
detail by the internal and microscopic observations, and in breadth by the 
discovery of variety of different kinds of life produced objects, which at 
this time still lies ahead of us.  

As always, deep gratitude goes to NASA for making this work and much more 
possible, by taking the magnificent pictures of Mars surface, and 
generously providing full public access to them.

References
1.  NASA image gallery, http://origin.mars5.jpl.nasa.gov/gallery/all
2.  Zeltsman, A.  (2005) Visual Detection of life on Mars?  Marsbugs 12, 
n20, 2-3  
3.  Isenberg, H.  (2004-2005) PanCam true color images from Spirit and 
Opportunity Mars Exploration Rovers,
http://mars.gh.wh.uni-dortmund.de/mer/opportunity/139/

Contact:
Alexander Zeltsman
10 Hackamore Court
Tinton Falls, NJ 07753
Phone: 732 922-0122
Fax: 732 922-0122
E-mail: Azeltsman2@comcast.net
__________________________________________________________________________

15TH WESTERN PHOTOSYNTHESIS CONFERENCE--1ST ANNOUNCEMENT
By David J. Thomas
30 June 2005

The 15th Western Photosynthesis Conference will be held at the Asilomar 
Conference Grounds in Pacific Grove, California.  The Conference is 
designed to provide undergraduate and graduate students, post-docs, and 
faculty with an opportunity to present and discuss their work with 
scientists from institutions throughout the Western United States and with 
leading photosynthesis researchers invited from other locales.

Six symposia are planned.  The first symposium will commence on Thursday 
evening following dinner.  Friday and Saturday symposia will include 
morning and evening sessions, with afternoons free for poster viewing, 
discussions, or exploration of the nearby area.  The last session will 
conclude before lunch on Sunday.  Each symposium will include two or three 
lectures given by invited speakers; short contributed presentations will 
follow.  Informal socials will follow each evening session.  Snacks and 
beverages will be provided.

Each attendee is encouraged to bring a poster and submit an abstract.  
Individuals (including speakers) may bring more than one poster.  All 
abstracts will be compiled into the conference program, which will be 
distributed on 5 January at the Registration Desk.  Abstracts will also be 
available online as they are received.  

Contact Dr. Petra Fromme (pfromme@asu.edu), or see the conference web site 
(http://www.lyon.edu/photosynthesis/) for additional information.
__________________________________________________________________________

NASA'S CASSINI--ONE YEAR IN PICTURES
NASA/JPL release
30 June 2005
 
To celebrate the first anniversary of Cassini's arrival at Saturn, you're 
invited to vote on a selection of the most popular images so far.  The 
most popular image will be announced in mid-July.

Vote now at http://saturn.jpl.nasa.gov/multimedia/poll/
__________________________________________________________________________

MARS GLOBAL SURVEYOR IMAGES
NASA/JPL/MSSS release
23-29 June 2005

The following new images taken by the Mars Orbiter Camera (MOC) on the 
Mars Global Surveyor spacecraft are now available.

Tikhonravov Layers (Released 23 June 2006)
http://www.msss.com/mars_images/moc/2005/06/23

South Polar Cap (Released 24 June 2006)
http://www.msss.com/mars_images/moc/2005/06/24

Troughs in Tharsis (Released 25 June 2006)
http://www.msss.com/mars_images/moc/2005/06/25

West Tithonium Scene (Released 26 June 2006)
http://www.msss.com/mars_images/moc/2005/06/26

South Amazonis Yardangs (Released 27 June 2006)
http://www.msss.com/mars_images/moc/2005/06/27

Mars at Ls 230 Degrees (Released 28 June 2006)
http://www.msss.com/mars_images/moc/2005/06/28

Defrosting Terrain (Released 29 June 2006)
http://www.msss.com/mars_images/moc/2005/06/29
 
All of the Mars Global Surveyor images are archived at 
http://www.msss.com/mars_images/moc/index.html.

Mars Global Surveyor was launched in November 1996 and has been in Mars 
orbit since September 1997.  It began its primary mapping mission on March 
8, 1999.  Mars Global Surveyor is the first mission in a long-term program 
of Mars exploration known as the Mars Surveyor Program that is managed by 
JPL for NASA's Office of Space Science, Washington, DC.  Malin Space 
Science Systems (MSSS) and the California Institute of Technology built 
the MOC using spare hardware from the Mars Observer mission.  MSSS 
operates the camera from its facilities in San Diego, CA.  The Jet 
Propulsion Laboratory's Mars Surveyor Operations Project operates the Mars 
Global Surveyor spacecraft with its industrial partner, Lockheed Martin 
Astronautics, from facilities in Pasadena, CA and Denver, CO.
__________________________________________________________________________

NASA'S DEEP IMPACT SPACECRAFT PREPS FOR JULY 4 FIREWORKS 
NASA release 05-172
1 July 2005

NASA's Deep Impact spacecraft continues to sail through its final 
checkout, as it hurtles toward comet Tempel 1.  Impact with the comet is 
scheduled for 1:52 AM EDT, July 4.

"The time of comet encounter is near and the major mission milestones are 
getting closer and closer together," said Rick Grammier, Deep Impact 
project manager at NASA's Jet Propulsion Laboratory (JPL), Pasadena, 
Calif.  "After all the years of design, training and simulations, we are 
where we want to be.  The flight and science teams are working the mission 
plan, and we are good to go for encounter," he added.

Deep Impact consists of a sub-compact-car-sized flyby spacecraft and an 
impactor, about the size of a washing machine.  The dual spacecraft carry 
three imaging instruments, two on the flyby and one on the impactor.

Several major mission milestones occurred during the past week.  The 
mission's third trajectory correction maneuver was successfully executed 
on June 23.  The burn of the spacecraft's motors changed Deep Impact's 
speed by 13 mph.  Impact with Tempel-1 is scheduled for 1:52 AM EDT, July 
4.  Another trajectory correction for final targeting before impactor 
release is scheduled for 8:00 PM EDT, July 2.

Mission planners separated the spacecraft's flight operations into six 
mission phases.  The phases are launch, commissioning, cruise, approach, 
encounter and playback.  The five-day encounter phase incorporates the 
final approach to the comet and transmission to Earth collected data.

"We've completed the final pre-release checkout of the impactor.  The 
impactor probe will have a short, 24 hour, life from release to impact, 
but an incredibly important role." said Dave Spencer, Deep Impact mission 
manager.

The impactor has an auto-navigation system that will make final 
corrections to its flight path just minutes before the scheduled 
collision.  Scientists hope the resulting crater will expose fresh 
material from below the comet's surface and subsurface.  

"That is the whole point of Deep Impact," said mission principal 
investigator and University of Maryland astronomer Michael A'Hearn.  "We 
want to find out what are the guts of a comet."

The flyby spacecraft will use medium and high resolution imagers and an 
infrared spectrometer to collect and send to Earth pictures and spectra of 
the event.  Space-born science platforms will also be watching Deep 
Impact.  These include NASA's Hubble and Spitzer space telescopes, the 
Chandra X-ray Observatory, the Swift and Submillimeter Wave Astronomy 
satellites, the European Space Agency's XMM-Newton X-ray observatory and 
Rosetta spacecraft.  Observatories on Earth will view the impact and its 
aftermath.

The final prelude to impact begins early on July 3, when the flyby 
spacecraft releases the impactor into the path of the onrushing comet.  
The release is scheduled at 1:52 AM EDT, 24 hours before impact.

The 820-pound impactor will collide with the comet's nucleus at a closing 
speed of 23,000 mph.  Scientists expect the impact to create a large 
crater.  The impact will eject ice, dust and gas from the crater and 
reveal the pristine material beneath.  The impact will have no significant 
effect on the comet's orbit, which poses no threat to Earth.

The University of Maryland, College Park conducts overall mission science 
for Deep Impact.  JPL handles project management and mission operations.  
For information about Deep Impact on the Web, visit 
http://www.nasa.gov/deepimpact.  For information about NASA and agency 
programs on the Web, visit http://www.nasa.gov/home/index.html.

Contact:
Dolores Beasley
NASA Headquarters, Washington, DC
Phone: 202-358-1753

D. C. Agle
Jet Propulsion Laboratory, Pasadena, CA
Phone: 818-393-9011

Lee Tune
University of Maryland, College Park, MD
Phone: 301-405-4679
__________________________________________________________________________

MARS RECONNAISSANCE ORBITER UPDATE
NASA expendable launch vehicle status report e05-005
29 June 2005

Mission: Mars Reconnaissance Orbiter (MRO) 
Launch Vehicle: Lockheed Martin Atlas V 401 
Launch Pad: Space Launch Complex 41 (SLC-41), Cape Canaveral Air Force 
Station (CCAFS), FL
Launch Date: August 10, 2005
Launch Window: 7:53:58 to 9:53:58 AM (EDT)

Power-on testing continues to go well.  The high-gain antenna was 
installed on June 24.  The solar arrays have been cleaned, inspected and 
installed.  This week, the solar arrays will be deployed, inspected and 
stowed for launch.  The Centaur upper stage for the Atlas V is at the 
Vertical Integration Facility (VIF) at SLC-41.  It was hoisted atop the 
Atlas stage to begin checkout.
  
The Launch Vehicle Readiness Test continues.  A countdown wet dress 
rehearsal with the launch vehicle fully fueled is scheduled for early 
July.  
 
The MRO will be transported from the Payload Hazardous Servicing Facility 
at KSC to the VIF in late July.  It will join the Atlas V for the final 
phase of launch preparations.  The spacecraft will undergo a functional 
test, a final week of integrated testing and closeouts.  
 
The MRO mission is managed by NASA's Jet Propulsion Laboratory, a division 
of the California Institute of Technology in Pasadena, CA, for the 
agency's Science Mission Directorate.  Lockheed Martin Space Systems is 
the prime contractor for the project and will provide launch services for 
the mission with International Launch Services.

Previous status reports are available on the Internet at 
http://www.nasa.gov/centers/kennedy/launchingrockets/status/2005.  For 
information about NASA and agency programs on the Internet visit 
http://www.nasa.gov/home/index.html.

Contacts:
Katherine Trinidad
NASA Headquarters, Washington, DC
Phone: 202-358-3749

George H.  Diller
NASA Kennedy Space Center, FL
Phone: 321-867-2468
__________________________________________________________________________

End Marsbugs, Volume 12, Number 23.