Authors: Brian Aldiss,Roger Penrose
Tags: #Science fiction, #General, #Science Fiction - General, #Fiction, #Fiction - Science Fiction, #Mars (Planet), #Space colonies, #Twenty-first century, #Brian - Prose & Criticism, #Utopias, #Utopian fiction, #Aldiss
We were served a coffdrink while one of the particle physicists, a Scandinavian called Jon Thorgeson, youthful but with a deeply lined face, spoke to us. He was more communicative than Poulsen, whom he vaguely resembled, being ectomorphic and seemingly of no particular age.
Did he recognise me from my previous visit? Certainly he came over and said hello to me in the friendliest way.
Thorgeson briefed us on what we were going to see. In fact, he admitted, we could see very little. The science institution comprised two sorts of people. One was a somewhat monastic unit, where male and female scientists thought about what they were doing or what they might do, free from pressures to produce - in particular the pressure to produce 'Big Science'. The other unit comprised people actually doing the science. This latter unit was still adjusting the equipment that, it was hoped, might eventually detect Rosewall's postulated Omega Smudge.
As we were being shown around, Thorgeson explained that their researches were aimed at tackling the mystery of mass in the universe. Rosewall had made an impressive case for the existence of something called a HIGMO, a hidden-symmetry gravitational monopole. The team was running a pilot project at present, on a relatively small ring, since the density of HIGMOs in the universe remained as yet unknown. The ring lay at the rear of the science unit, under a protective shield, we were told.
One of the crowd asked the obvious question of why all this equipment and this team of scientists were shipped to Mars at such enormous expense.
Thorgeson looked offended. 'It was Rosewell's perception that you needed no expensive super-collider, just a large ring-shaped tube filled with appropriate superfluid. Whenever a HIGMO passes through this ring, its passage will be detected as a kind of glitch appearing in the superfluid. Any sort of violent activity outside the tube would ruin the experiment.'
I found myself asking how HIGMOs could manage to pass through the ring. He seemed to look hard at me before answering, so that I felt silly.
'Young lady, HIGMOs can pass clean through Mars without disturbing a thing, or anyone being any the worse for it.'
Someone else asked, 'Why not build this ring on the Moon?'
'The Moon - we're too late for that! Tourist activities, mining activity, the new transcore subway ... The whole satellite shakes like a vibrator in a wasps' nest.'
Turning his gaze on me, he asked, 'You understand this?'
I nodded. 'That's why you're out here. No wasps' nests.'
'Full marks.' He came and shook my hand, which made me very uncomfortable. 'That's why we're out here. It's fruitless to pursue the Smudge on Earth or on Luna. Far too much racket. The Omega Smudge is a shy beast.' He chuckled.
'And if you capture this Smudge, what then?' asked one of the group, Helen Panorios, the YEA woman with dyed purple hair and dark complexion.
'It holds the key to many things. In particular, it will tell us just how the microverse relates to the macroverse, giving us the precise parameters for the dividing line between the small-scale quantum world of atoms and fundamental particles, and the larger-scale classical world of specks of dust upwards to galaxies and so on. I take the view of current 'hard science' that these parameters should also tell us how the exterior universe relates to human consciousness. The detailed properties of the universe seem to be deeply related to the very existence of conscious observers - observers maybe like humans, maybe a more effective species which will supersede us. If so, then consciousness is not accidental, but integral. At last we'll have a clear understanding of all existence.'
'So you hope,' ventured a sceptical voice.
'So we hope. When the ships come back and we can obtain more material, we expect to build a superfluid ring right around the planet. Then we'll see.'
'Now we see through a glass darkly...' said Helen, admiringly.
'We don't quote the Bible much here but, yes, more or less.'
A man who had already asked a question enquired rather sneeringly, 'What exactly is this key between the large and small you mention? Isn't human consciousness just a manifestation of the action of the quantputers in our heads?'
'That may well be true in principle, but we can't proceed without knowing some important physical parameters more exactly, most particularly what's labelled the HIGMO g-factor, whose value is completely unknown at present - let's call it "the missing-link of physics".'
'So what happens when you find it? Will the universe come to an end?'
Jon Thorgeson laughed to the extent of exciting the deep lines in his cheeks. He said that life for the majority of people might go on as usual. But even if the universe did end - well, he said, to make a wild guess, the probability was that there were plenty of other universes growing, as he put it, on the same stem. Mathematics indicated as much.
He came to a halt in the middle of a corridor, and our group halted with him and gathered round as he talked.
'As you know, stars keep going by exothermic fusion of hydrogen into helium-4. When the core hydrogen is almost used up, gravitational contraction starts. The consequent rise in temperature permits the burning of helium. In our universe, nucleosynthesis of all the heavier elements is achieved by this continued process of fuel exhaustion, leading to contraction, leading to higher central temperatures, leading to a new source of fuel for the sustaining nuclear energy.
'But in our universe there are what in lay terms we may call strange anomalies in this process. For instance, unless nucleosynthesis proceeded resonantly, the yield of carbon would be negligible. By a further anomaly, it happens that the carbon produced is not consumed in a further reaction. So we live in a universe with plentiful carbon and, as you know, carbon is a basic element for our kind of life.
'I wouldn't like my boss to hear me saying this, but -who knows? - in a neighbouring universe, these strange anomalies may not occur. It might be entirely life-free, without observers. Or maybe life takes another course and is, say, silicon-based. Such possibilities will become clearer if we can get the tabs on our Smudge.'
One of our group asked if it would be possible for us to enter another universe, or for something from another universe to enter ours.
The lines on Thorgeson's face deepened in amusement. 'There we venture into the realms of science fiction. I can't comment on that.'
At the end of our tour, I managed to speak to Thorgeson face to face. I told him that many of the people in the domes, particularly the YEAs, were interested in science but did not understand what the particle physicists were working at. Indeed, the scientific team were regarded as being rather secretive.
Lowering his voice, he said that there was dissension in the scientific ranks. The issues were complex. Many men and women on the team did not see the Omega Smudge as worth pursuing, and favoured more practical concerns, such as establishing a really efficient comet- and meteor-surveillance system. On the other hand... Here he paused.
When I prompted him to continue, he said that practical goals were for people without vision - clever people, but those without vision.
'Was Kepler being practical when, in the middle of a war, he sat down and computed the orbits of planets? Certainly not. Yet those planetary laws of his have eventually brought us here. That's pure science. The Smudge is pure science. I'm not very pure myself - said with a sly laughing glance at me - 'but I support pure science.'
Since I understood those sly glances, I asked him boldly if he would visit the domes and lecture us on the subject?
'Want to come and have a drink with me and talk it over?'
'I have to keep with my group. Sorry.'
Too bad. You're an attractive lady. Korean, are you? We're a bit short of adjuncts to living over here. Monastic is what we are.'
'Then leave your monastery and lecture us on particle physics.'
'You might find it rather dull,' he said. Then he smiled. 'It's a good idea. I'll see what I can do. I'll be in touch.'
At that stage, I did not realise how prophetic those words were.
We were waiting in the reception area for our buggybus to finish recharging. I started talking to the technician on duty, and asked her about the small white tongues we had seen outside the building.
'Oh, the Watchers? I can show you them on the monitors, if you like.'
I went behind her desk to take a look at the surveillance system. It clearly showed the white tongues, unmoving outside.
The technician flicked from screen to screen. The tongues surrounded the establishment. Behind them, Olympus Mons could be seen distantly, dominating its region.
'You get a clearer idea of them when I switch over to infrared,' said the technician, so doing.
I exclaimed in alarm. The tongues were no longer tongues. They reminded me, much more formidably, of gravestones I had seen in an old churchyard, tall and unmoving. They formed almost a solid wall about the establishment. It seemed they were covered in a kind of oily, scaly skin of a dull green colour. I asked if they were going to break in.
'They're quite harmless. They don't interfere. We think they're observing. They don't get in anyone's way.'
As we looked, a maintenance engineer came into view on the screens, suited up and shouldering welding equipment. As if to confirm the duty technician's words, the Watchers flicked back into the regolith and were gone, offering him no impediment. He moved out of view and the tongues at once returned.
I could not help feeling cold fear running through my body.
'So there is life on Mars,' I said.
'But not necessarily Martian life,' the technician said. 'Sit down for a minute, pet. You look terribly pale. I'm only joking. There's no life on Mars. We all know that.'
But jokes frequently hold bitter kernels of truth. Knowledge of the Watchers spread and caused alarm. But custom dulls the edge of many things. Whether alive or not, they made no hostile moves. We became used to their presence and finally ignored them.
After my return from Thorgeson and company, I told Kathi over the Ambient how impressed I was by Thorgeson's intellect. She asked what he had said.
I tried to explain that he had claimed the consciousness of humanity, or of a species that might supersede us, was - what had he said? - an integral function of the universe.
She laughed scornfully. 'Who do you think he got that idea from?' she asked.
After a silence, she said, 'If we cannot behave in a better and more Utopian way, then we deserve to be superseded, don't you think?'
I changed the subject and spoke about the tongues surrounding the science unit.
'Don't worry,' she said lightly. 'We shall find out their function in good time. Do you know about quantum state-reduction? No? I'm reading up about it now. It's the collapse of the wave function, such as Schrodinger's cat - you know all about Schrodinger's cat, Cang Hai?'
'Of course I've heard of it.'
'Well then, the collapse of the wave function resolves the problem of that poor hypothetical quantum-superposed moggie. It becomes either a dead cat or a live cat, instead of being in a quantum superposition of both a dead and an alive cat.'
'I see ... Is that better or worse for the cat?'
She scowled at me. 'Don't try to be funny, dear. Such quantum superpositions occur in the electron displacements in a quantcomp. The definitive experiments conducted by Heitelman early this century made it clear that state-reduction actually takes place when it is the internal gravitational influences that become significant. You see where this leads us?'
I shook my head. 'I'm afraid I don't, Kathi.'
'I'm working on it, babe!' With a cheery wave of its hand her image faded from view.
Sitting there vexed, I tried to understand what she was saying. The gravitational link puzzled me. On inspiration, I decided to Ambient Jon Thorgeson in the science unit.
An unfamiliar face came up in the globe. 'Hi! I'm Jimmy Gonzales Dust, Jon's buddy. We're training for the marathon and he's busy on the running machine. Can I help? He's spoken to me about you. He thinks you're cute.'
'Oh ... Does he? Do you know anything about the -what do you call it? The gravitational ... no ... The magneto-gravitic anomaly? Have you any information about it?'
He looked hard at me. 'We call it the M-gravitic anomaly.' He asked me why I was worrying. I said I didn't really know. I was trying to learn some science.
Jimmy hesitated. 'Keep this to yourself if I give you a shot from the upsat. There's been a slight shift in the anomaly.'
The photograph he released came through the slot.
I stared at it. It was an aerial view of the Tharsis Shield from 60 miles up. The outline of Olympus Mons - or Chimborazo, to use Kathi's name - could clearly be seen. Across the shot someone had scrawled with marker pen G-WSW + 0.13
0
.
Why and how, I asked myself, should the anomaly have shifted? Why in that direction - in effect towards Arizonis Planitia and our position?
As I stared at the photo, I noticed furrowed regolith to the east of the skirts of Olympus. Kathi had pointed this furrowing out to me earlier. Now it seemed the furrowing was rather more extensive. I could not understand what it meant. In the end, I returned to my studies, not very pleased with myself. Cute? Me?!