There are __many examples__ of mathematical breakthroughs achieved in prison. Maybe the most famous is from the French mathematician __Andre Weil__, who came up with __his hugely influential conjectures__ while in a military prison in Rouen, France. Another mathematical giant, __Srinivasan Ramanujan__, started off with no formal training in mathematics and produced most of his revolutionary results in complete isolation.

In his autobiography, Weil mentions __being able to achieve special clarity while in prison__. Is there something special about prison and mathematics?

Christopher Havens' story certainly agrees with this perspective.

## A murder conviction

Havens received a 25-year sentence in Washington in 2011 after being convicted for murder. He found his love and gift for mathematics while in solitary confinement a few months after his incarceration. His journey in mathematics and research led to him publishing a __first-author paper in an academic mathematics journal__ in January 2020.

In January 2013, my partner Matthew Cargo, who was, at the time, the production editor for __Mathematical Sciences Publishers__, was forwarded this letter in an email from a colleague:

*"To whom it may concern, I'm interested in finding more information on a subscription to Annals of Mathematics for personal use. I'm currently serving 25 years in the Washington Department of Correction and I've decided to use this time for self-betterment. I'm studying calculus and number theory, as numbers have become my mission. Can you please send me any information on your mathematical journal? Christopher Havens, #349034*

*PS. I am self-teaching myself and often get hung on problems for long periods of time. Is there anyone who I could correspond with, provided I send self-addressed stamped envelopes? There are no teachers here who can help me so I often spend hundreds on books that may or may not contain the help I need. Thank you."*

Cargo put Havens in contact with my parents, who are both mathematicians.

## Productive time

Initially, my father, Umberto Cerruti, a number theorist who was a professor of mathematics at the __University of Torino__, Italy, agreed to help Havens simply because we asked him. My father thought that Havens was likely one of the many cranks that fall in love with numbers and come up with a flawed theory. To test him, he gave Havens a problem to solve.

In return, my father received a 120-centimeter-long piece of paper in the mail, and on it was a long and complicated formula. My father entered the formula into his computer and to his surprise, the results were correct!

After this, my father invited Havens to work on a problem involving continued fractions he was working on.

Discovered by Euclid in 300 BC, continued fractions allow expressing all numbers through sequences of integer numbers. For example, pi is the ratio between a circle's circumference and its diameter: 3.14159…. The sequence of numbers after the initial digit continues forever and is totally chaotic. But written as a continued fraction its expression is simple and beautiful:

... finally to hopefully wet your whistle some more!... It is possible to express pi in a more precise way, but you need something like a continued fraction, cool stuff!! pic.twitter.com/cN62tkBbfjMarch 15, 2019

Continued fractions are an example of the power of number theory, the field that both Weil and Ramanujan mostly contributed too. Number theory has given us breakthroughs in modern cryptography, nowadays crucial in banking, finance and military communications.

Havens' findings, published in a the journal *Research in Number Theory* in January 2020, __showed for the first time some regularities in the approximation of a vast class of numbers__. This result can open new fields of research in number theory. Indeed, finding new ways for writing numbers is one of the most important problems for a number theorist, although the results may not have an immediate application. Just as an example, there are supercomputers fully dedicated to __computing trillions of pi digits__.

Havens worked on this topic using only pen and paper in his prison cell, exchanging ideas with his co-authors in Italy through hard-copy letters mailed across the ocean.

## Prison conditions

So how could this happen? In Havens' words:

*"It was less than a year after I came to prison that my behaviour landed me in 'the hole' (solitary confinement). It was in the hole that my life would change because there I figured out that I loved mathematics. I spent somewhere around 10 hours a day studying …. I decided to enter the Intensive Transition Program, ITP. This is a one-year program which helps people get their minds right. It's designed to effectively aid you into 'taking your head from your backside.' This was my schedule. Eat, math, remove my head from my backside, brush, rinse, repeat. It was an important time in my life."*

It was after the ITP that Havens sent his inquiry, and the mentorship with my parents started.

My parents sent him loads of books. However, the prison blocked them all as they did not come from an authorized vendor. Havens worked with the prison staff and started the Prison Mathematics Project, where he would explain mathematics to other inmates. In exchange they were allowed a library and a room to meet biweekly. It worked — the box of books got admitted to the prison.

I spoke with Havens on the phone in three 20-minute chunks (as much as he's allowed to talk at a time) to write this piece. Havens used the word education frequently in our conversations:

*"Education was a hassle to me. I was a high school dropout — a drug addict, held no jobs, no place long enough to call home …. Education is hard to come by in prison …. So I'm looking for an education outside of prison. I try to build bridges and nurture my relations with others outside. Because this is my education. Every opportunity is a learning experience for me because they are so rare."*

Havens also sees maths as a way to "pay his debt to society":

*I definitely have plotted out a long term life plan to accommodate paying a debt that has no price. I know this path is permanent … and there never is a day that it's is finally paid off. But this longevity in debt is not bad. It's inspiration. Maybe this will sound stupid, but I serve my time in the company of the soul of my victim. I dedicate a lot of my biggest accomplishments to him.*

## Math after prison

Indeed, despite the solid evidence that __getting a degree while in prison significantly decreases recidivism__, __post-secondary opportunities in prison are limited__. And with no access to the internet, most long-distance degrees are out of the question for inmates.

Havens is currently pursuing an __associate of science degree__ from Adams State University, which __offers it through the mail__. But he already knows all the math they require. So for now, Havens wishes he could have a math mentor to touch base with on a regular basis.

When Havens gets out, he intends to complete a bachelors and a graduate degree, despite the clear difficulties __that can result from a criminal history__. He plans to start a career in mathematics, and hopes to transform the Prison Mathematics Project into a non-profit organization for inmates with a gift for mathematics.

- 9 Numbers That Are Cooler Than Pi
- The World's Most Beautiful Equations
- The 9 Most Massive Numbers in Existence

*This article was originally published at **The Conversation.** The publication contributed the article to Live Science's *__ Expert Voices: Op-Ed & Insights__.