But he perceived odd hints of structure, too elusive to identify.

Were there worlds here, he wondered, cold stars, perhaps even beings with their own goals and ambitions?

Paul turned away from the Galaxy and faced the hostile Universe.

The quantum functions connecting him to the site of man’s original system stretched thin. Soon the human Galaxy shrank to a mote in the vast cathedral of space. He saw clusters and super clusters of galaxies, glowing softly, sprinkled over space in great filaments and sheets, so that it was as if the Universe were built of spiderweb.

On the largest of scales space was a froth of baryonic matter, a chaotic structure of threads and sheets of shining starstuff, separated by voids a hundred million light years across.

And everywhere, on both the small scale and the large, Paul found evidence of the work of intelligence, and in particular of the vast, unrestrained projects of the Xeelee. They had turned galaxies into neat balls of stars, and in one place they had caused two galaxy clusters — whole clusters! — to collide, in order to create a region a million light years wide in which matter was nowhere less dense than in the outer layers of a red giant star.

Paul wondered what manner of creatures moved through that vast sea…

And everywhere he traveled Paul found the premature aging of stars.

Paul’s anger stirred, illogically.

Cautiously, clinging to his wave-function ropes, Paul sank into the dark matter ocean.

Currents of photinos swept past him. The moving masses distorted space-time, and the density was high enough for him to perceive vast structures gliding through his focus of awareness. Gradually he came to understand the structure of his Universe.

Dark matter comprised most of the mass of the Universe. Baryons — protons and neutrons, the components of light, visible matter — and photinos — their dark matter analogues — existed largely independently of each other, interacting only through gravitational attraction.

All matter, dark and light, had erupted from the singularity at the start of time which had forced space itself to unfurl like a torn sheet. The dark matter had spread like some viscous liquid into every corner of the young Universe and, seething, settled into a kind of equilibrium. The baryons had been sprinkled like a froth over this sea.

At first the dark ocean was featureless, save only for variations in its smooth density. These glitches, representing mass concentrations on the order of millions of solar masses, formed gravitational wells, cosmic potholes into which fragments of light matter fell, pooled, and began to coalesce. Gravitational warming began, and — finally, fitfully — the first stars sputtered to brightness. A billion years after the singularity the galaxies formed, trapped like flies in the dark matter wrinkles.

Slowly dark currents pushed the galaxies together, and large-scale structures — the vast, gaudy superstructure that would span the Universe — began to evolve.

Most of this made no difference to the dark matter sea… but, here and there, the material of the shining stars began to exert an influence on its dark counterpart. Just as baryons had slithered into dark matter potholes, so — on a much smaller scale — photinos collected in the pinpoint gravity wells of the new stars.

Even the human star, Sol, had contained a dark core the size of a moon. Human scientists had observed this dark parasite indirectly by its effect on the neutrino output of the Sun…

And, in a slow explosion of insight, Paul began to see a connection between the dark matter canker at the hearts of the stars, and the aging of the baryonic Universe.

Excited, he skimmed through the Universe, studying the cooling corpses of extinguished stars.

And at last, datum by datum, he came to understand the secret history of the Universe.

Thanks to the baryonic stars small-scale structure entered the dark matter Universe. Paul speculated that a chemistry must have begun, with varieties of the photinos combining to form some counterpart of molecules; strange rains had sleeted over the surfaces of the shadow worlds, still buried in the blazing cores of baryon stars.

At last life had arisen.

Paul had no way of knowing if the transition to life had occurred on one of the shadow planets or on several, perhaps in a variety of forms. Nor could he guess what form that life had taken, what technologies and philosophies it had evolved.

But he could speculate how it had spread. Photino creatures like birds — photino birds — had fluttered out through the baryon stars as if they did not exist, colonizing shadow world after shadow world. Perhaps, Paul supposed, vast flocks had plied between the hearts of stars, with the humans and other baryonic races all unaware.

Aeons had passed with the two grand families of life, dark and light, oblivious of each other…

Then something had happened.

Again Paul could only guess. Probably a supernova had ripped apart a baryon star, laying waste to its host shadow world in the process. Paul imagined the horror of the photino civilization as the irrelevant froth of baryons through which they moved turned into a source of deadly danger, perhaps threatening the ultimate survival of their civilization.

Many courses of action must have been considered, including — Paul speculated with a kind of shudder — the total annihilation of the baryonic content of the Universe. But without baryon stars and their tiny gravity wells new shadow worlds could not form; therefore without the baryons there could be no replacement for the photino worlds as they grew stale and died: and so, in the end, the dark civilization itself would falter and fail.

So the baryons had to stay. The photino birds needed the stars.

But they didn’t need the damn things exploding all over the place. And the Universe was full of these vast, gaudy stars, burning off energy and forever quivering on the brink of catastrophic explosions. Such extrovert monsters were simply unnecessary; all the dark races required from a star was a reasonably stable gravity well. The remnants of large stars — white dwarfs and neutron stars — were quite satisfactory, and so were immature stars: the brown dwarfs and Jovian gas planets which were warm but not quite large enough for fusion to be initiated.

Cold, dull, and immensely stable. That was how a star should be.

So the photino birds set out to transform the Universe.

The photino birds set up two great programs. The first had been to shape the evolution of new stars. Paul imagined invisible flocks cruising through the vast gas clouds which served as the breeding grounds for new stars; the photino birds had used huge masses to skim layers off protostars and so condemn them to become brown dwarfs, little grander than Jupiter.

The second program had been to rationalize existing stars.

If the things were going to explode or swell up like balloons, the photino birds had reasoned, then they would prefer to accelerate the process and get it out of the way. Then the photino civilization could grow without limit or threat, basking in the long, stately twilight of the Universe.

So the photino birds had settled into the hearts of stars. They infested the core of humanity’s original Sun.

For millions of years, unknown to humanity, the photino birds had fed off the Sun’s hydrogen-fusing core. Each sip of energy, by each of the photino birds, had lowered the temperature of the core, minutely.

In time, after billions of interactions, the core temperature dropped so far that hydrogen fusion was no longer possible. The core had become a ball of helium, dead, contracting. Meanwhile, a shell of fusing hydrogen burned its way out of the Sun, dropping a rain of helium ash onto the core…