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The double-slit experiment with carbon-60 molecules, also known as fullerene molecules, is an important experimental demonstration of wave-particle duality at the macroscopic scale. However, the interpretation and implications of these experiments can be a topic of debate among scientists.

The double-slit experiment has traditionally been performed with particles such as electrons and photons, which are considered elementary particles. These experiments clearly demonstrate interference patterns, indicating wave-like behavior of particles. The experiments with fullerene molecules extended this phenomenon to larger and more complex particles, providing evidence that wave-particle duality is not limited to microscopic entities.

The fullerene molecule experiments have indeed garnered significant attention and are considered remarkable achievements in demonstrating the wave-like behavior of large molecules. They support the idea that particles can exhibit both particle-like and wave-like properties, suggesting that the principles of quantum mechanics apply to increasingly larger systems.

However, it is worth noting that the interpretation of these experiments and the exact implications are still subjects of ongoing discussion and investigation within the scientific community. Some scientists argue that the wave-like behavior observed in these experiments does not necessarily imply that the molecules themselves are literally behaving as waves. Instead, they propose alternative explanations based on the interaction of the molecules with their surroundings, such as the interaction with the measurement apparatus or the interference effects of environmental factors.

While the double-slit experiment with fullerene molecules provides strong evidence for the wave-like behavior of larger particles, the precise interpretation of these results and their implications continue to be topics of research and scientific debate. It's important to note that the scientific consensus is not always static, and new experimental findings and theoretical developments can shape and refine our understanding of complex phenomena like wave-particle duality.

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