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Quantum tunneling is a phenomenon in quantum mechanics where a particle can pass through a potential energy barrier, even if it does not have sufficient energy to overcome that barrier classically. It is commonly associated with one-dimensional scenarios, such as an electron tunneling through a barrier.

However, quantum tunneling is not limited to one-dimensional systems. It can occur in higher-dimensional systems as well. The key idea behind quantum tunneling is the wave-like nature of particles described by quantum mechanics, which allows them to exhibit tunneling behavior in multiple dimensions.

In higher-dimensional systems, quantum tunneling can involve particles moving through potential energy barriers in different directions. For example, in a two-dimensional system, a particle can tunnel through a barrier in both the x and y directions simultaneously. Similarly, in three-dimensional systems, a particle can tunnel through barriers in three spatial dimensions.

It's important to note that the mathematics and complexity of multi-dimensional quantum tunneling increase significantly as the number of dimensions increases. Analyzing and understanding multi-dimensional tunneling phenomena often require advanced mathematical tools and computational techniques. Nonetheless, the concept of quantum tunneling remains applicable to systems with multiple dimensions.

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