Spinspace: The Space of Spins (The Metaspace Chronicles Book 2)

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Spinspace: The Space of Spins (The Metaspace Chronicles Book 2) Page 32

by Matthew Kennedy


  The problem was, it was the easy way out, the coward's way, and he knew it. Those bastards were going to attack Rado again, and would he really be able to live with himself if they did? Even if Aria survived the invasion, he had no doubt she would be captured. With him out of the picture, she would never be Honchessa. No, she would be, at best, a plaything for corrupt officers, and at worst a political prisoner, perhaps awaiting death by execution after the cabal extracted politically useful 'confessions' from her about her. Perhaps they would accuse her of using witchcraft to ensnare their former Honcho to weaken the glorious Lone Star Empire with a alliance with Rado.

  So much for the first option. His fiancée would be killed or captured, and the people of Rado who had accepted him as an ally – even after his father had attempted to subjugate them by force – would be conquered and made into slaves to mine gold for Dallas, and into cannon fodder to swell its armies as the Empire expanded.

  His second option would be to survive the manhunt and then slip back into Texas to raise an army of loyalists to restore him to power. Not as easy as giving up, but at least not as cowardly, either. The trouble with this options was it seemed less practical. The traitors would have time to consolidate their power while he laid low, and no doubt they would be filling the ears of citizens with slanders about his actions and motives to justify their seizure of power.

  He doubted that it would be easy for them to arrive at a consensus to let one of their number be exalted as the new Honcho, but if they did and the new leader of the Empire was accepted by the people, his cause might be doomed. How would he afford to supply and support his army of restoration? He was a penniless refugee. Would he turn to banditry, and prey on his own countrymen to build up his forces, abandoning morality in the service of the greater good? Would he become just another thug like the highwaymen who preyed on trade caravans? So much for that option.

  The third options was hardly better. He could survive and make his way to Rado to ask for their help. Even if they granted it, though, he could imagine how that would look to his people: a failed leader turned villain, returning with a foreign army to conquer his own country so he could be a puppet for distant rulers.

  The road must have become smoother. The jolt of the cart stopping awakened him and he realized he must have dozed off from the monotony of the cart's slow progress. He only realized how long he had been asleep when he heard a chorus of squawks of displaced chickens and the hidden door was lifted to grant him a view of the night sky. Groaning from the stiffness in his back and the tingling of limbs that had been too long cramped in the narrow space, he allowed himself to be lifted bodily out of the hidden compartment and forced himself to stand and stamp his legs and wave his arms to restore his circulation. “Where are we?”

  The monks helping him stand appeared to ignore the question. Gazing about him he finally located Brother Marcus and marched over to him. “Your men won't tell me where we're going or where we are.”

  Marcus was calm. “They have taken a vow of silence, Excellency. His Holiness thought it prudent to ensure that they would not be questioned on our way out, or upon their return.”

  “And yet you are still talking, I notice.”

  “His holiness thought it best that one of our party be excepted from the vow, in order to respond to soldiers. And so that you would have someone to talk to.”

  The carts had pulled off the road into a stand of trees by a field. Some of the monks gathered fallen branches for a fire, which Marcus lit with the aid of an everflame. Others began putting up tents.

  “So where are we going?”

  Marcus appeared surprised. “Didn't you hear what I told the soldier?”

  “Yes, to some monastery. I assumed that was a cover story.”

  “The best cover stories are true,” Marcus told him. “Some people are better than others at sensing when they are being lied to. I could not afford to arouse suspicions. I knew I was telling the truth, so the soldier knew it too.” He replaced the everflame in a pocket of his robes. “As I said, we are going to the monastery of St. Avory's.”

  “Why go there?”

  “It seemed a logical place of refuge for you, Excellency. You will have the time you need to plan your next move.”

  If only he knew what that was.

  (END OF PREVIEW)

  Appendix I: Spinspace

  Once again, as I did in Pathspace, I'd like to point out that the aspect of metaspace I am emphasizing in this book, spinspace, is not completely a figment of my imagination.

  Those who study quantum mechanics know that the so-called “fundamental particles” are supposed to possess certain properties, one of which is called spin. Particles can have zero, integer, or half-integer spin, which is one way to classify them.

  But spin is like other quantum properties like 'strangeness' or 'charm': a simple name for a mysterious quality. Undergraduates often visualize an electron as a little spinning ball, like a billiard ball with some English on it.

  They are often dismayed when it is explained to them that this is an inadequate and oversimplified way to imagine spin. For example, an electron has a spin of ± ½. Huh? Half of what? One way of explaining it is to say that the electron has to spin around twice in order to get back to where it started. Needless to say, this is awfully hard to picture.

  It gets worse. When you measure the spin of a particle, you might think (imagining the electron like a tiny spinning Earth) that the tilt of its axis would give you all sorts of possible values. But it doesn't! Whenever you measure the spin of an electron, the answer is always +½ or - ½ . Never anything else.

  We would prefer to ignore such craziness, except for the fact that spin is extremely important when you talk about electromagnetic fields. The spin of any charged particle, like the the electron, makes it act like a little magnet, and the motion of the particle is influenced by other magnetic fields. If you send an electron into a fairly even magnetic field, its path bends into a circle or spiral, like a curve ball thrown by an atomic pitcher.

  This behavior is crucial to the construction of particle accelerators these days, where strong magnetic fields are used to make the particles fly around in circles instead of off in straight lines. That way we can keep spanking them with electrostatic pushes to make them go faster and faster .

  One of the interesting questions about spin is where it comes from. We know from the conservation of energy that when a high energy particle smacks into another, some of their energy of motion can become new particles that seem to come out of nowhere.

  And then they arrive, most of them already have spin. But where did they get it? It is fairly easy to picture the electron as swelling up with extra mass when it is accelerated – that the energy used to speed up the particle makes it put on weight – and then to see these collision-created particles as debris knocked off it somehow.

  If you smash two rocks together, bits will be broken off and fly away like shrapnel from a grenade. These fragments, however will exit the scene with a diverse collection of linear and angular momenta. In other words, some might be spinning slowly, other more rapidly.

  But the particles creates by collisions always appear with spins that are either zero, or some multiple of positive or negative ½.

  And where does their spin come from? The mechanical analogy breaks down here, because they are not pieces of the original particle that hit something. Well, not usually. They are not like pieces of a shattered rocket that got hit off-center by a passing asteroid. They are full and complete particles in their own right, with their own mass, motion, and spin. So where do they get the spin? And why is it always exactly zero or some multiple of ½ ?

  Many physicist refuse to get tangled up in trying to imagine what particles look like. Their motto is “just shut up and calculate”, meaning that we don't need to spend time picturing particles and their interactions as mechanical events. We have equations which predict measurable results, and that should be enough to do whatever we w
ant to do with the particles.

  Like make televisions. In the early days of television, long before the advent of flat screens and pixel LEDs, images were made on TV screens by shooting electrons at phosphors to make the dots on the screen glow. The electrons were obtained by heating up a piece of metal so that they would jump off it. From there they were accelerated to make them hit the screen fast enough. (Yes, you guessed right – early TVs were particle accelerators.)

  The problem was, the electrons were focused into a beam, like water shooting out of a hose. And there was no way to wiggle the electron hose fast enough to make them hit all the positions on the screen in time to make a frame of a movie appear.

  The solution they came up with was having electromagnets controlled by the incoming TV signal With a couple of perpendicular fields, they could make the electrons curve left and right, and up and down. Since the fields were controlled by electromagnets, instead of permanent magnets, and the current in their coils could be changed very quickly, the deflection fields could redirect the beam of electrons to make it point at any position on the screen.

  None of this requires anyone to spend much time worrying about what the spinning electrons look like, or where they got their spin. The math is simple enough and good enough to design consumer electronics without worrying about such “philosophical” issues as where the spin comes from.

  But sooner or later, if you think about such things, the question arises out of the background noise and sparks fresh imaginings.

  The explanation that I like is that particle spin is an intrinsic property of space, of the Continuum. Okay, it is an odd property, granted. But if it is a property of space, then any particle “created” in space will have a configuration that either includes it or not. If not, you get the zero-spin particles like the photon. In 3-dimensional space, after all, you can imagine objects with hardly any thickness in the 3rd dimension, like flat planes. Similarly, in the Continuum we can imagine particles that have none of their existence distributed along the dimension of spin.

  I like to suppose that spin is a property of space, not of particles. Particles have it because they exist in space.

  One thing I forgot to mention is that while particles can be created by investing enough energy in a small region of space, as when electrons in old TV sets smashed into phosphors and liberated photons, there are also particles that seem to literally come out of nowhere. They are called virtual particles, to distinguish them permanent ones, and they seem to be living on borrowed time. The Einstein version of the Heisenberg Uncertainty says that the more sure you are about how long something takes, the more unsure you are about how much energy is present...and vice versa.

  In other words, you can “borrow” energy from the Continuum, as long as you pay it back. The more you borrow, the sooner it has to be paid back. The more massive a virtual particle is, the more energy must be borrowed to create it, and so the sooner it must disappear again to return that borrowed energy.

  Space is boiling over with virtual particles all the time. And the interesting thing about, for example, a virtual electron, is that when it appears out of nowhere it always has spin. When you instantiate an electron in space, it always comes complete with spin no matter whether the energy was supplied or borrowed.

  So I say, spin is an intrinsic property of space. This might seem like mere philosophy, but every electric motor in the world depends on magnetic fields exerting force on electrons moving in wires. When you turn on a fan, the rotation of the fan is not caused by the power cable somehow turning gears attached to the fan blade. It is caused by the spin of electromagnets talking to the spin of electrons and pushing them around to build up mechanical spin in the rotating shaft.

  You could say that spinspace is exploited every time you start your car and power up the electric starter motor. Spinspace is used in every old analog electric watch and clock where an electric motor makes the second hand move. Every time you ride an elevator, print out a document, or even look at a compass needle, you are using Spinspace – the space of spins.

  --- MRK

  Other books by Matthew R. Kennedy

  Gamers and Gods

  Gamers and Gods: AES

  Games and Gods II: MACHAON

  Gamers and Gods III: ALEXANOR

  The Metaspace Chronicles

  Pathspace: The Space of Paths

  Table of Contents

  Chapter 1 Lester: The Thin Ice of The New Day

  Chapter 2 Kareef: Troubling Doubts

  Chapter 3 Xander: Afterthoughts and Consequences

  Chapter 4 Carolyn: Curiouser and Curiouser

  Chapter 5 Nathan: Strange Things

  Chapter 6 Jeffrey: Homecoming

  Chapter 7 Kareef: A Scary Request

  Chapter 8 Lester: The Offer

  Chapter 9 Kareef: The Reluctant Dropout

  Chapter 10 Esteban: Inopinatum Audientibus (an unexpected audience)

  Chapter 11 Nathan: The Family Business

  Chapter 12 Carolyn: The Pitch

  Chapter 13 Kaleb: The Assignment

  Chapter 14 Kareef: The Second Birth

  Chapter 15 Xander: the first student

  Chapter 16 Nathan: the delegation

  Chapter 17 Aria: opposition research

  Chapter 18 Lester: a lesson in spinspace

  Chapter 19 Nathan: falling

  Chapter 20 Esteban: deportantem molientemque

  Chapter 21 Kareef: “So travel through the earth”

  Chapter 22 Jeffrey: jibber jabber

  Chapter 23 Rochelle: more briefing

  Chapter 24 Kaleb: begins with a single step

  Chapter 25 Kareef: Faith and Violence

  Chapter 26 Jeffrey: quieting madness

  Chapter 27 Nathan: according to his deeds

  Chapter 28 Xander: “a little matter of logistics”

  Chapter 29 Kristana: separation of State and education

  Chapter 30 Esteban: advena in terra aliena

  Chapter 31 Kareef: “the ink of scholars”

  Chapter 32 Nathan: the pursuit of peace

  Chapter 33 Lester: “what dreams may come”

  Chapter 34 Kareef: “tell me how much you have traveled”

  Chapter 35 Kaleb: the polite kingdom

  Chapter 36 Rochelle: lore deficiency

  Chapter 37 Esteban: hic ego sum studere (“ here I am to study”)

  Chapter 38 Jeffrey: this delicate balance

  Chapter 39 Xander: work smart, not hard

  Chapter 40 Nathan: words across the miles

  Chapter 41 Kareef: good news or bad?

  Chapter 42 Esteban: fines iter, aliud intineris spatium (“ one journey ends, another journey begins”)

  Chapter 43 Andrews: the lost sheep

  Chapter 44 Carolyn: continuing progress

  Chapter 45 Kaleb: the equality of the poor

  Chapter 46 Lester: more briefing

  Chapter 47 Kaleb: arrival

  Chapter 48 Xander: inflexible domains

  Chapter 49 Kaleb: meeting the master

  Chapter 50 Kareef” “for those who have insight”

  Chapter 51 Nathan: boredom breeds pessimism

  Chapter 52 Lester: tricks with seeing

  Chapter 53 Xander: safety considerations

  Chapter 54: Kareef: whom he pleases

  Chapter 55 Nathan: the wards

  Chapter 56 Kristana: diets and probes

  Chapter 57 Lester: the more the merrier

  Chapter 58 Kaleb: the demonstration

  Chapter 59 Rochelle: contemplating the enemy

  Chapter 60 Aria: damps and newcomers

  Chapter 61 Enrique: a nontrivial change

  Chapter 62 Xander: structures and surprises

  Chapter 63 Kaleb: following orders

  Chapter 64 Kurt: chance meeting in moonlight

  Chapter 65 Lester: accidentally on purpose

  Chapter 66 Kristana: a necessary deception

  Chapter 67 Kareef: “... and a prac
tice for every one of you”

  Chapter 68 Nathan: get understanding

  Chapter 69 Kaleb: remorse

  Chapter 70 Aria: alarums and excursions

  Chapter 71 Nathan: suspicion

  Chapter 72 Lester: smoke and mirrors

  Chapter 73 Xander: teacher's pet

  Chapter 74 Andrews: serving two masters

  Chapter 75 Kristana: the moderator

  Chapter 76 Xander: lovers and advisors

  Chapter 77 Kaleb: the past is behind, the future ahead

  Chapter 78 Lester: midnight musings

  Chapter 79 Nathan: hard is not the same as impossible

  Chapter 80 Kareef: different strengths

  Chapter 81 Carolyn: new developments

  Chapter 82 Jeffrey: two steps forward, three steps back

  Chapter 83 Enrique: horns of the altar

  Chapter 84 Jeffrey: cat and mouse

  Chapter 85 Katerina: lioness in repose

  Chapter 86 Nathan: secrets

  Chapter 87 Isaac: trading and trapping

  Chapter 88 Carolyn: worrisome possibilities

  Chapter 89 Kaleb: puppet show

  Chapter 90 Kareef: doing what can be done

  Chapter 91 Xander: a matter of responsibility

  Chapter 92 Kristana: actions and consequences

  Chapter 93 Nathan: a time to teach, and a time to learn

  Chapter 94 Carolyn: the mother of all headaches

  Chapter 95 Xander: the first graduation

  Chapter 96 Jeffrey: a tactical retreat

 

 

 


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