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Inherit the Stars g-1

Page 11

by James P. Hogan


  "But you said some of them showed radiation anomalies. That’s just what I want to know more about."

  "But nobody ever found any suggestion of what you’re talking about."

  "Maybe they weren’t looking for the right things. They never had any reason to."

  The physics department had a comprehensive collection of Lunar rock samples, a sizeable proportion of which comprised specimens from the interiors and vicinities of the young, anomalous craters on Nearside. Under Hunt’s persistent coercion, Steinfleld agreed to conduct a specially devised series of tests on them. He estimated that he would need a month to complete the work.

  Hunt returned to Houston to catch up on developments there and a month later flew back to Omaha. Steinfield’s experiments had resulted in a series of computer-generated maps showing anomalous Nearside craters. The craters divided themselves into two classes on the maps: those with characteristic irradiation patterns and those without.

  "And another thing," Steinfield informed him. "The first class, those that show the pattern, have also got another thing in common that the second class hasn’t got: glasses from the centers were formed by a different process. So now we’ve got anomalous anomalies on Nearside, too!"

  Hunt spent a week in Omaha and then went directly to Washington to talk to a group of government scientists and to study the archives of a department that had ceased to exist more than fifteen years before. He then returned to Omaha once again and showed his findings to Steinfleld. Steinfield persuaded the university authorities to allow selected samples from their collection to be loaned to the UNSA Mineralogy and Petrology Laboratories in Pasadena, California, for further testing of an extremely specialized nature, suitable equipment for which existed at only a few establishments in the world.

  As a direct consequence of these tests, Caldwell authorized the issue of a top-priority directive to the UNSA bases at Tycho, Crisium, and some other Lunar locations, to conduct specific surveys in the areas of certain selected craters. A month after that, the first samples began arriving at Houston and were forwarded immediately to Pasadena; so were the large numbers of samples collected from deep below the surface of Farside.

  The outcome of all this activity was summarized in a memorandum stamped "SECRET" and written on the anniversary of Hunt’s first arrival in Houston.

  9 September 2028

  TO: G. Caldwell

  Executive Director

  Navigation and Communications

  Division

  FROM: Dr. V. Hunt

  Section Head

  Special Assignment Group L

  ANOMALIES OF LUNAR CRATERING

  (1) Hemispheric Anomalies

  For many years, radical differences have been known to exist between the nature and origins of Lunar Nearside and Farside surface features.

  (a) Nearside

  Original Lunar surface from 4 billion years ago. Nearly all surface cratering caused by explosive release of kinetic energy by meteorite impacts. Some younger-e.g., Copernicus, 850 million years old.

  (b) Farside

  Surface comprises large mass of recently added material to average depth circa 300 meters. Craters formed during final phase of this bombardment. Dating of these events coincides with Lunarian presence. Origin of bombardment uncertain.

  (2) Nearside Exceptions

  Known for approx. the last thirty years that some Nearside craters date from same period as those on Farside. Current theory ascribes them to overshoots from Farside bombardment.

  (3) Conclusion From Recent Research at Omaha and Pasadena

  All Nearside exceptions previously attributed to meteoritic impacts. This belief now considered incorrect. Two classes of exceptions now distinguished:

  (a) Class I Exceptions

  Confirmed as meteoritic impacts occurring 50,000 years ago.

  (b) Class II Exceptions Differing from Class I in irradiation history, formation of glasses, absence of impact corroboration and positive results to tests for elements hyperium, bonnevilliuin, genevium. Example: Crater Lunar Catalogue reference MB 3076/K2/E currently classed as meteoritic. Classification erroneous. Crater MB 3076/K2/E was made by a nucleonic bomb. Other cases confirmed. Investigations continuing.

  (4) Farside Subsurface

  Intensive sampling from depths approximating that of the original crust indicate widespread nucleonic detonations prior to meteorite bombardment. Thermonuclear and fission reactions also suspected but impossible to confirm.

  (5) Implications

  (a) Sophisticated weapons used on Luna at or near time of Lunarian presence, mainly on Farside. Lunarian involvement implied but not proved.

  (b) If Lunarians involved, possibility of more widespread conflict embracing Lunarian home planet. Possible cause of Lunarian extinction.

  (c) Charlie was a member of more than a small, isolated expedition to our Moon. A significant Lunarian presence on the Moon is indicated. Mainly concentrated on Farside. Practically all traces since obliterated by meteorite storm.

  Chapter Twelve

  Front page feature of the New York Times,

  14 October 2028:

  LUNARIAN PLANET LOCATED

  Did Nuclear War Destroy Minerva?

  Sensational new announcements by UN Space Arm Headquarters, Washington, D.C., at last positively identify the home planet of the Lunarian civilization, known to have achieved space flight and reached Earth’s Moon fifty thousand years ago. Information pieced together during more than a year of intense work by teams of scientists based at the UNSA Navigation and Communications Division Headquarters, Houston, Texas, shows conclusively that the Lunarians came from an Earth-like planet that once existed in our own Solar System.

  A tenth planet, christened Minerva after the Roman goddess of wisdom, is now known to have existed approximately 250 million miles from the Sun between the orbits of Mars and Jupiter, in the position now occupied by the Asteroid Belt, and is firmly established as having been the center of the Lunarian civilization.

  In a further startling announcement, a UNSA spokesman stated that data collected recently at the Lunar bases, following research at the University of Nebraska, Omaha, and the UNSA Mineralogy and Petrology Laboratories, Pasadena, California, indicate that a large-scale nuclear conflict took place on the Moon at the time the Lunarians were there. The possibility that Minerva was destroyed in a full-scale nuclear holocaust of interplanetary dimensions cannot be ruled out.

  Nucleonic Bombs Used at Crisium

  Investigations in recent months at the University of Nebraska and Pasadena give positive evidence that nucleonic bombs have caused craters on the Moon previously attributed to meteorite impacts. H-bomb and A-bomb effects are also suspected but cannot be confirmed.

  Dr. Saul Steinfield of the Department of Physics at the University of Nebraska explained: "For many years we have known that Lunar Farside craters are very much younger than most of the craters on Nearside. All the Farside craters, and a few of the Nearside ones, date from about the time of the Lunarians, and have always been thought to be meteoritic. Most of them, including all Farside ones, are. We have now proved, however, that some of the Nearside ones were made by bombs-for example, a few on the northern periphery of Mare Crisium and a couple near Tycho. So far, we’ve identified twenty-three positively and have a long list to check out."

  Further evidence collected from deep below the Farside surface indicates heavier bombing there than on Nearside. Obliteration of the original Farside surface by a heavy meteorite storm immediately after these events accounts for only meteorite craters being found there today and makes detailed reconstruction of exactly what took place unlikely. "The evidence for higher activity on Farside is mainly statistical," said Steinfield yesterday. "There’s no way you could figure anything specific-for example, an actual crater count-under all that garbage."

  The new discoveries do not explain why the meteorite storm happened at this time. Professor Pierre Guillemont of the Hale Observatory commented: "Clearl
y, there could be a connection with the Lunarian presence. Personally, I would be surprised if the agreement in dates is just a coincidence, although that, of course, is possible. For the time being, it must remain an unanswered question."

  Clues from ILIAD Mission

  Startling confirmation that Minerva disintegrated to form the Asteroid Belt has been received from space. Examination of Asteroid samples carried out on board the spacecraft Iliad, launched from Luna fifteen months ago to conduct a survey of parts of the Belt, shows many Asteroids to be of recent origin. Data beamed back to Mission Control Center at UNSA Operational Command Headquarters, Galveston, Texas, gives cosmic-ray exposure times and orbit statistics pinpointing Minerva’s disintegration at fifty thousand years ago.

  Earth scientists are eagerly awaiting arrival of the first Asteroid material to be sent back from Iliad, which is due at Luna in six weeks time.

  Lunarian Origin Mystery

  Scientists do not agree that Lunarians necessarily originated on Minerva. Detailed physical examinations of "Charlie" (Times, 7 November 2027) shows Lunarian anatomy identical to that of humans and incapable of being the product of a separate evolutionary process, according to all accepted theory. Conversely, absence of traces of Lunarian history on Earth seems to rule out any possibility of terrestrial origins. This remains the main focus of controversy among the investigators.

  In an exclusive interview, Dr. Victor Hunt, the British-born UNSA nucleonics expert coordinating Lunarian investigations from Houston, explained to a Times reporter: "We know quite a lot about Minerva now-its size, its mass, its climate, and how it rotated and orbited the Sun. Upstairs we’ve built a six-foot scale model of it that shows you every continent, ocean, river, mountain range, town, and city. Also, we know it supported an advanced civilization. We also know a lot about Charlie, including his place of birth, which is given on several of his personal documents as a town easily identified on Minerva. But that doesn’t prove very much. My deputy was born in Japan, but both his parents come from Brooklyn. So until we know a lot more than we do, we can’t even say for sure that the Minervan civilization and the Lunarian civilization were one and the same.

  "It’s possible the Lunarians originated on Earth and either went to live on Minerva or made contact with another race who were there already. Maybe the Lunarians originated on Minerva. We just don’t know. Whichever alternative you choose, you’ve got problems."

  Alien Marine Life Traced to Minerva

  Professor Christian Danchekker, an eminent biologist at Westwood Laboratories, Houston, and also involved in Lunarian research from the beginning, confirmed that the alien species of fish discovered among foodstocks in the ruin of a Lunarian base on Lunar Farside several months ago (Times, 6 July 2028) appear to have been a life form native to Minerva. Markings on the containers in which the fish were preserved show that they came from a well-defined group of equatorial islands on Minerva. According to Professor Danchekker: "There is no question whatsoever that this species evolved on a planet other than Earth. It seems clear that the fish belong to an evolutionary line that developed on Minerva, and they were caught there by members of a group of colonists from Earth who established an extension of their civilization there."

  The professor described the suggestion that the Lunarians might also be natives of Minerva as "ludicrous."

  Despite a wealth of new information, therefore, much remains to be explained about recent events in the Solar System. Almost certainly, the next twelve months will see further exciting developments.

  (See also the Special Supplement by our Science Editor on page 14.)

  Chapter Thirteen

  Captain Hew Mills, UN Space Arm, currently attached to the Solar System Exploration Program mission to the moons of Jupiter, stood gazing out of the transparent dome that surmounted the two-story Site Operations Control building. The building stood just clear of the ice, on a rocky knoll overlooking the untidy cluster of domes, vehicles, cabins, and storage tanks that went to make up the base he commanded. In the dim gray background around the base, indistinct shadows of rock buttresses and ice cliffs vanished and reappeared through the sullen, shifting vapors of the methane-ammonia haze. Despite his above-average psychological resilience and years of strict training, an involuntary shudder ran down his spine as he thought of the thin triple wall of the dome-all that separated him from this foreboding, poisonous, alien world, cold enough to freeze him as black as coal and as brittle as glass in seconds. Ganymede, largest of the moons of Jupiter, was, he thought, an awful place.

  "Close-approach radars have locked on. Landing sequence is active. Estimated time to touchdown: three minutes, fifty seconds." The voice of the duty controller at one of the consoles behind Mills interrupted his broodings.

  "Very good, Lieutenant," he acknowledged. "Do you have contact with Cameron?"

  "There’s a channel open on screen three, sir."

  Mills moved around in front of the auxiliary console. The screen showed an empty chair and behind it an interior view of the low-level control room. He pressed the call button, and after a few seconds the face of Lieutenant Cameron moved into the viewing angle.

  "The brass are due in three minutes," Mills advised. "Everything okay?"

  "Looking good, sir."

  Mills resumed his position by the wall of the dome and noted with satisfaction the three tracked vehicles lurching into line to take up their reception positions. Minutes ticked by.

  "Sixty seconds," the duty controller announced. "Descent profile normal. Should make visual contact any time now."

  A patch of fog above the landing pads in the central area of the base darkened and slowly materialized into the blurred outline of a medium-haul surface transporter, sliding out of the murk, balanced on its exhausts with its landing legs already fully extended. As the transporter came to rest on one of the pads and its shock absorbers flexed to dispose of the remaining momentum, the reception vehicles began moving forward. Mills nodded to himself and left the dome via the stairs that led down to ground level.

  Ten minutes later, the first reception vehicle halted outside the Operations Control building and an extending tube telescoped out to dock with its airlock. Major Stanislow, Colonel Peters, and a handful of aides walked through into the outer access chamber, where they were met by Mills and a few other officers. Mutual introductions were concluded, and without further preliminaries the party ascended to the first floor and proceeded through an elevated walkway into the adjacent dome, constructed over the head of number-three shalt. A labyrinth of stairs and walkways brought them eventually to number-three high-level airlock anteroom. A capsule was waiting beyond the airlock. For the next four minutes they plummeted down, down, deep into the ice crust of Ganymede.

  They emerged through another airlock into number-three low-level anteroom. The air vibrated with the humming and throbbing of unseen machines. Beyond the anteroom, a short corridor brought them at last to the low-level control room. It was a maze of consoles and equipment cubicles, attended by perhaps a dozen operators, all intent on their tasks. One of the longer walls, constructed completely from glass, gave a panoramic view down over the workings in progress outside the control room. Lieutenant Cameron joined them as they lined up by the glass to take in the spectacle beyond.

  They were looking out over the floor of an enormous cathedral, over nine hundred feet long and a hundred feet high, hewn and melted out of the solid ice. Its rough-formed walls glistened white and gray in the glare of countless arc lights. The floor was a litter of steel-mesh roadways, cranes, gantries, girders, pipes, tubes, and machinery of every description. The left-side wall, stretching away to the far end of the tunnel, carried a lattice of ladders, scaffolding, walkways, and cabins that extended up to the roof. All over the scene, scores of figures in ungainly heavy-duty spacesuits bustled about in a frenzy of activity, working in an atmosphere of pressurized argon to eliminate any risk of explosion from methane and the other gases released from the melted ice. B
ut all eyes were fixed on the right-hand wall of the tunnel.

  For almost the entire length, a huge, sweeping wall of smooth, black metal reared up from the floor and curved up and over, out of sight above their heads to be lost below the roof of the cavern. It was immense-just a part of something vast and cylindrical, lying on its side, the whole of which must have stretched far down into the ice below floor level. At the near end, outside the control room, a massive, curving wing flared out of the cylinder and spanned the cavern above their heads like a bridge, before disappearing into the ice high on the far left. At intervals along the base of the wall, where metal and ice met, a series of holes six feet or so across marked the ends of the network of pilot tunnels that had been driven all around and over and under the object.

  It was far larger than a Vega. How long it had lain there, entombed beneath the timeless ice sheets of Ganymede, nobody knew. But the computations of field-vector resultants collected from the satellites had been right; there certainly had been something big down here-and it hadn’t been just ore deposits.

  "Ma-an," breathed Stanislow, after staring for a long time. "So that’s it, huh?"

  "That is big!" Peters added with a whistle. The aides echoed the sentiments dutifully.

  Stanislow turned to Mills. "Ready for the big moment, then, Captain?"

  "Yes, sir," Mills confirmed. He indicated a point about two hundred feet away where a group of figures was gathered close to the wall of the hull, surrounded by an assortment of equipment. Beside them a rectangular section of the skin about eight feet square had been cut away. "First entry point will be there- approximately amidships. The outer hull is double layered; both layers have been penetrated. Inside is an inner hull…" For the benefit of the visitors, he gestured toward a display positioned near the observation window showing the aperture in close-up.

 

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