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Defying or breaking the rules of quantum physics, as currently understood, is considered highly challenging if not impossible. Quantum physics is a well-established scientific theory with a robust experimental foundation, and it has consistently provided accurate predictions and explanations for a wide range of phenomena.

Quantum physics is built upon fundamental principles and mathematical frameworks that have been extensively tested and verified through experimental observations. These principles, such as superposition, entanglement, and the uncertainty principle, have been repeatedly confirmed by countless experiments. Quantum mechanics has also been successfully applied in various technological fields, including electronics, optics, and quantum computing.

While there are ongoing debates and open questions within quantum physics, any potential modifications or extensions to the theory would need to align with existing empirical evidence and be consistent with a wide range of experimental observations. Scientists are continually researching and exploring the frontiers of quantum physics, seeking to uncover new insights and potentially refine our understanding of the theory. However, any proposed modifications or new theories must provide a compelling explanation for the existing phenomena and be rigorously tested through experimentation.

It's worth noting that the principles and laws of quantum physics are not arbitrary restrictions but rather descriptions of the fundamental behavior of nature at the quantum level. The phenomena and limitations described by quantum physics are deeply rooted in the structure of reality as we currently understand it.

Therefore, while scientific progress can bring about new discoveries and unexpected insights, the fundamental principles of quantum physics, as they have been established through extensive experimental validation, are not easily defied or broken. Any potential breakthroughs or revisions in our understanding of quantum physics would require substantial evidence and rigorous scientific investigation.

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