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Authors: Cédric Villani

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Birth of a Theorem: A Mathematical Adventure

BOOK: Birth of a Theorem: A Mathematical Adventure
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Table of Contents

 

About the Author

 

Copyright Page

 

 

 

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Preface

 

I am often asked what it’s like to be a mathematician—what a mathematician’s daily life is like, how a mathematician’s work gets done. In the pages that follow I try to answer these questions.

This book tells the story of a mathematical journey, a quest, from the moment when the decision is made to venture forth into the unknown until the moment when the article announcing a new result—a new
theorem
—is accepted for publication in an international journal.

Far from moving swiftly between these two points, in a straight line, the mathematician moves forward haltingly, along a long and winding road. He meets with obstacles, suffers setbacks, sometimes loses his way. As we all do from time to time.

Apart from a few insignificant details, the story I have told here is in agreement with reality, or at least with reality as I experienced it.

My thanks to Olivier Nora for having encouraged me, on the occasion of a chance encounter, to write this book; thanks to Claire for her careful reading and many helpful suggestions; thanks to Claude for his fine illustrations; thanks to Ariane Fasquelle and the staff at Grasset for grasping at once my purpose in writing this book and for their care in preparing the final manuscript for the typesetter; thanks, finally, to Clément for an unforgettable collaboration, without which this book wouldn’t exist.

Cédric Villani
Paris, December 2011

 

 

ONE

 

Lyon

March 23, 2008

One o’clock on a Sunday afternoon. Normally the laboratory would be deserted, were it not for two busy mathematicians in need of a quiet place to talk—the office that I’ve occupied for eight years now on the third floor of a building on the campus of the École Normale Supérieure in Lyon.

I’m seated in a comfortable armchair, insistently tapping my fingers on the large desk in front of me. My fingers are spread apart like the legs of a spider. Just as my piano teacher trained me to do, years ago.

To my left, on a separate table, a computer workstation. To my right a cabinet containing several hundred works of mathematics and physics. Behind me, neatly arranged on long shelves, thousands and thousands of pages of articles, lawfully photocopied back in the days when scientific journals were still printed on paper, and a great many mathematical monographs, unlawfully photocopied back in the days when I didn’t make enough money to buy all of the books I wanted. There are also a good three feet of rough drafts of my own work, meticulously archived over many years, and quite as many feet of handwritten notes, the legacy of hours and hours spent listening to research talks. In front of me, Gaspard, my laptop computer, named in honor of Gaspard Monge, the great mathematician and revolutionary. And a stack of pages covered with mathematical symbols—more notes from every one of the eight corners of the world, assembled especially for this occasion.

My partner, Clément Mouhot, stands to one side of the great whiteboard that takes up the entire wall in front of me, marker in hand, eyes sparkling.

“So what’s up? Your message was pretty vague.”

“My old demon’s back again—regularity for the inhomogeneous Boltzmann.”

“Conditional regularity? You mean, modulo minimal regularity bounds?”

“No, unconditional.”

“Completely? Not even in a perturbative framework? You really think it’s possible?”

“Yes, I do. I’ve been working on it again for a while now and I’ve made pretty good progress. I have some ideas. But now I’m stuck. I broke the problem down using a series of scale models, but even the simplest one baffles me. I thought I’d gotten a handle on it with a maximum principle argument, but everything fell apart. I need to talk.”

“Go on, I’m listening.…”

*   *   *

 

I went on for a long time. About the result I have in mind, the attempts I’ve made so far, the various pieces I can’t fit together, the logical puzzle that so far has defeated me. The Boltzmann equation remains intractable.

Ah, the Boltzmann! The most beautiful equation in the world, as I once described it to a journalist. I fell under its spell when I was young—when I was writing my doctoral thesis. Since then I’ve studied every aspect of it. It’s all there in Boltzmann’s equation: statistical physics, time’s arrow, fluid mechanics, probability theory, information theory, Fourier analysis, and more. Some people say that I understand the mathematical world of this equation better than anyone alive.

Seven years ago I initiated Clément into this mysterious world when he began his own thesis under my direction. He was eager to learn. Certainly he’s the only person who has read everything I’ve written on Boltzmann’s equation. Now Clément is a respected member of the profession, a mathematician in his own right, brilliant, eager to get on with his own research.

Seven years ago I helped him get started; today I’m the one who needs help. The problem I’ve chosen to work on is exceedingly difficult. I’ll never solve it by myself. I’ve got to be able to explain what I’ve done so far to someone who knows the theory inside out.

“Let’s assume grazing collisions, okay? A model without cutoff. Then the equation behaves like a fractional diffusion, degenerate, of course, but a diffusion just the same, and as soon as you’ve got bounds on density and temperature you can apply a Moser-style iteration scheme, modified to take nonlocality into account.”

“A Moser scheme? Hmmmm … Hold on a moment, I need to write this down.”

“Yes, a Moser-style scheme. The key is that the Boltzmann operator … true, the operator is bilinear, it’s not local, but even so it’s basically in divergence form—that’s what makes the Moser scheme work. You make a nonlinear function change, you raise the power.… You need a little more than temperature, of course, there’s a matrix of moments of order 2 that have to be controlled. But the positivity is the main thing.”

“Sorry, I don’t follow—why isn’t temperature enough?”

I paused to explain why, at some length. We discussed. We argued. Before long the board was flooded with symbols. Clément was still unsure about the positivity. How can strict positivity be proved without any regularity bound? Is such a thing even imaginable?

“It’s not so shocking, when you think about it: collisions produce lower bounds; so does transport, in a confined system. So it makes sense. Unless we’re completely missing something, the two effects ought to reinforce each other. Bernt tried a while ago, he gave up. A whole bunch of people have tried, but no one’s had any luck so far. Still, it’s plausible.”

“You’re sure that the transport is going to turn out to be positive without regularity? And yet without collisions, you bring over the same density value, it doesn’t become more positive—”

“I know, but when you average the velocities, it strengthens the positivity—a little like what happens with the averaging lemmas for kinetic equations. But here we’re dealing with positivity, not regularity. No one’s really looked at it from this angle before. Which reminds me … when was it? That’s it! Two years ago, at Princeton, a Chinese postdoc asked me a somewhat similar question. You take a transport equation, in the torus, say. Assuming zero regularity, you want to show that the spatial density becomes strictly positive. Without regularity! He could do it for free transport, and for something more general on small time scales, but for larger times he was stymied.… I remember asking other people about it at the time, but no one had a convincing answer.”

“Back up. How did he handle the simple free transport case?”

“Free transport” is a piece of jargon that refers to an ideal gas in which the particles do not interact. The model is too simplified to be at all realistic, but you can still learn a lot from it.

“Not sure—but it should be obvious from an explicit solution. Let’s try to figure it out, right now.…”

Each of us set about reconstructing the argument that this postdoc, Dong Li, must have developed. No big deal, more like a minor exercise in problem solving. But maybe it will help us resolve the great enigma, who knows? And besides, it’s a contest—who can come up with the answer first? We scribbled away in silence for a few minutes. I won.

“I think I’ve got it.”

I got up and went over to the board, just like in school when the teacher shows the class how to solve a problem.

“You break down the solution in terms of the replicas of the torus … you change the variables in each piece … a Jacobian drops out, you use the Lipschitz regularity … and finally you end up with convergence in 1/
t
. Slow, but it looks about right.”

“But then you don’t have regularization … you get convergence by averaging … by averaging.…”

Clément was thinking out loud, staring at my calculation. Suddenly his face lit up. In a state of great excitement, he jabbed at the board with his index finger: “But then you’d have to check to see whether that helps with Landau damping!”

I was at a loss for words. Three seconds of silence. A vague feeling this could be important.

Now it was my turn to ask Clément to explain. He didn’t know what to say either. He hemmed and hawed, shifting his weight from one foot to the other. Then he said that my solution reminded him of a conversation he’d had three years ago with a Chinese-born mathematician in the United States, Yan Guo, at Brown.

“In Landau damping you want to have relaxation for a reversible equation—”

“Yes, yes, I know. But doesn’t interaction play a role? We’re not dealing with the Vlasov here, it’s just free transport!”

“Okay, maybe you’re right, interaction must play a role—in which case … the convergence should be exponential. Do you think 1/
t
is optimal?”

“Sounds right to me. What do you think?”

BOOK: Birth of a Theorem: A Mathematical Adventure
9Mb size Format: txt, pdf, ePub
ads

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