'Complex numbers are not needed for quantum mechanics': Physicists develop quantum model that uses only 'real' numbers for first time ever

Physicists have built a real-number version of quantum mechanics that makes all the same predictions as the standard theory, resolving a question that's simmered since the field began.

An illustration of a series of colorful drawings and numbers against a dark background
An illustration of physics equations being bent and warped. New research has found a way to accurately predict quantum interactions without using complex numbers.
(Image credit: vitacopS via Getty Images)

For the first time, physicists have built a working version of quantum mechanics without complex numbers — numbers that have been considered essential to the theory for nearly a century.

Complex numbers combine a regular "real" number with an "imaginary" one — a multiple of the square root of -1, represented by the symbol i — into a single value, like 3 + 4i. The square root of -1 doesn't correspond to any quantity you could count or measure directly (you can't have negative one apple, for instance), which is why mathematicians call it imaginary.

Larissa G. Capella
Live Science Contributor

Larissa G. Capella is a science writer based in Washington state. She obtained a B.S. in physics and a B.A. in English creative writing in 2024, which enabled her to pursue a career that integrates both disciplines. She reports mainly on environmental, Earth and physical sciences, but is always willing to write about any science that sparks her curiosity. Her work has appeared in Eos, Science News, Space.com, among others. 

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