<P> In 1927, Eugene Wigner formalized the principle of the conservation of parity (P - conservation), the idea that the current world and one built like its mirror image would behave in the same way, with the only difference that left and right would be reversed (for example, a clock which spins clockwise would spin counterclockwise if you built a mirrored version of it). </P> <P> This principle was widely accepted by physicists, and P - conservation was experimentally verified in the electromagnetic and strong interactions . However, during the mid-1950s, certain decays involving kaons could not be explained by existing theories in which P - conservation was assumed to be true . There seemed to be two types of kaons, one which decayed into two pions, and the other which decayed into three pions . This was known as the τ--θ puzzle . </P> <P> Theoretical physicists Tsung - Dao Lee and Chen - Ning Yang did a literature review on the question of parity conservation in all fundamental interactions . They concluded that in the case of the weak interaction, experimental data neither confirmed nor refuted P - conservation . Shortly after, they approached Chien - Shiung Wu, who was an expert on beta decay spectroscopy, with various ideas for experiments . They settled on the idea of testing the directional properties of beta decay in cobalt - 60 . Wu thereafter contacted Henry Boorse and Mark W. Zemansky, who had extensive experience in low - temperature physics . At the behest of Boorse and Zemansky, Wu contacted Ernest Ambler, of the National Bureau of Standards, who arranged for the experiment to be carried out in December 1956 in the NBS' low - temperature laboratories . </P> <P> Lee and Yang, who prompted the Wu experiment, were awarded the Nobel prize in physics in 1957, shortly after the experiment was performed . </P>

Who broke the law of conservation of parity