A Teenager Challenges the Status Quo in Mathematics

In a field where some problems remain unsolved for decades, a 17-year-old student has just made history. Hannah Cairó, still in high school, has disproved the Mizohata-Takeuchi Hypothesis, a mathematical conjecture proposed in the 1980s that had stood unchallenged for over 40 years. Her work has left the mathematical community both amazed and inspired, proving that talent can emerge from the most unexpected places.

From Nassau to U.S. Classrooms — A Journey Fueled by Curiosity

Originally from Nassau, Hannah entered the U.S. education system as a high school student, but her academic curiosity went far beyond her grade level. She began attending lectures at the University of California, Berkeley, where she reached out to professors directly, asking to sit in on their courses.

It was during one of these classes, taught by Professor Ruixiang Zhang, that Hannah encountered a simplified version of the Mizohata-Takeuchi Hypothesis—assigned as extra credit. But rather than stopping there, she dove into the full problem and became completely captivated by it.

The Hypothesis and Why It Mattered

The Mizohata-Takeuchi Hypothesis falls within the field of harmonic analysis, an area of mathematics focused on breaking down complex functions into simpler waveforms—like sines and cosines. This type of analysis is vital to many areas of science and technology, including digital signal processing, telecommunications, and data compression.

The hypothesis suggested that certain mathematical shapes could only be constructed from specific waveforms. If true, it would have confirmed many assumptions in the field. But Hannah’s work showed otherwise.

A Groundbreaking Counterexample

Cairó’s breakthrough came when she constructed a counterexample, challenging the very foundation of the hypothesis. “Once I saw what my design looked like in frequency space, I realized there was a simpler way to disprove it,” she said. Her insights came to life while participating in the International Congress on Harmonic Analysis and Partial Differential Equations held in El Escorial, Spain.

This prestigious event, organized by the Institute of Mathematical Sciences (ICMAT) and the Autonomous University of Madrid, marked Hannah’s first international academic presentation. Speaking to a room full of seasoned researchers, she shared her process, method, and findings with the same clarity and passion that led her to the discovery.

A Future Built on Waves and Wonder

“The beauty of harmonic analysis,” Hannah explains, “is that everything is made of waves. You can build anything if you have the right combination.” Her poetic view of mathematics brings humanity to a field often seen as abstract. Her story is not just about disproving a theory—it’s about how curiosity, perseverance, and access to opportunity can unlock incredible potential in young minds.

Conclusion: A New Star in the World of Mathematics

Hannah Cairó’s achievement is more than a personal success—it’s a powerful reminder that age, background, and status need not define one’s ability to contribute meaningfully to science. As universities and researchers around the globe take note of her work, one thing is clear: the future of mathematics is in very bright hands.