Revisiting the history of CPT theorem

A new paper published in EPJ H and authored by Alexander S. Blum and Andres Martınez de Velasco from Max Planck Institute for the History of Science, Berlin, looks at the roots of CPT theorem and its influence over modern physics.

“CPT theorem is the statement that nothing would change  —  nobody would notice and the predictions of physics would not be altered  —  if we simultaneously replace particles by antiparticles and vice versa,” Blum says. “Replace everything by its mirror image or more exactly: exchange left and right, up and down, and front and back, and reverse the flow of time. We call this simultaneous transformation CPT, where C stands for Charge Conjugation (exchanging particles and antiparticles), P stands for parity (mirroring), and T stands for time reversal.”

Blum adds that in the story told over the course of the paper is that CPT theorem only became really important a couple of years after its discovery.

“Originally, physicists had (tacitly) believed that nothing would change even if we do one of the three transformations mentioned above individually,” the researcher says. “In 1957, it was found that we can actually distinguish the world from its mirror image. In particular certain radioactive decays actually distinguish left from right. In time, it was found that, indeed, all three of the transformations individually actually produce noticeable differences.”

Blum concludes by explaining that the time is right for a review of CPT theorem because young researchers are becoming proficient both in historical and philosophical analysis and in the mathematical intricacies of post-WWII physics.

Blum’s research group, hosted both by the Max Planck Institute for the History of Science and the Max Planck Institute for Gravitational Physics, is now establishing itself as a centre for this kind of training emphasising the importance of the CPT theorem for a new generation of physicists.

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